Enum Nuclide 

pub enum Nuclide {
    Ti66,
    V68,
    V69,
    Cr71,
    Cr72,
    Mn74,
    Fe77,
    Co79,
    Cu84,
    Zn86,
    Zn87,
    Ga72m,
    Ga88,
    Ga89,
    Ge71m,
    Ge91,
    Ge92,
    As74m,
    As75m,
    As84m,
    As93,
    As94,
    Se85m,
    Se96,
    Se97,
    Br86m,
    Br99,
    Br100,
    Kr102,
    Kr103,
    Kr104,
    Rb105,
    Rb106,
    Sr108,
    Sr109,
    Y110,
    Y111,
    Zr114,
    Ru109m,
    Rh109m,
    Ag133,
    Cd135,
    Cd136,
    In138,
    Sn141,
    Sb115m,
    Sb143,
    Te146,
    I148,
    Xe143m,
    Xe151,
    Cs153,
    Cs154,
    Ba155,
    Ba156,
    La158,
    La159,
    Ce159,
    Ce160,
    Ce161,
    Pr162,
    Pr163,
    Pr164,
    Nd164,
    Nd165,
    Nd166,
    Nd167,
    Pm166,
    Pm167,
    Pm168,
    Pm169,
    Sm169,
    Sm170,
    Sm171,
    Sm172,
    Eu171,
    Eu172,
    Gd153m,
    Neutron,
    H1,
    H2,
    H3,
    H4,
    H5,
    H6,
    H7,
    He3,
    He4,
    He5,
    He6,
    He7,
    He8,
    He9,
    He10,
    Li4,
    Li5,
    Li6,
    Li7,
    Li8,
    Li9,
    Li10,
    Li11,
    Li12,
    Li13,
    Be6,
    Be7,
    Be8,
    Be9,
    Be10,
    Be11,
    Be12,
    Be13,
    Be15,
    Be16,
    Be14,
    B17,
    B18,
    B19,
    B20,
    B21,
    B15,
    B16,
    B7,
    B8,
    B9,
    B10,
    B11,
    B12,
    B13,
    B14,
    C8,
    C9,
    C10,
    C11,
    C12,
    C13,
    C14,
    C15,
    C20,
    C19,
    C22,
    C16,
    C18,
    C17,
    N22,
    N21,
    N24,
    N23,
    N18,
    N17,
    N20,
    N19,
    N10,
    N11,
    N12,
    N13,
    N14,
    N15,
    N16,
    O25,
    O26,
    O23,
    O24,
    O18,
    O21,
    O22,
    O19,
    O20,
    O28,
    O11,
    O12,
    O13,
    O14,
    O15,
    O16,
    O17,
    F27,
    F28,
    F25,
    F26,
    F26m,
    F19,
    F20,
    F23,
    F24,
    F21,
    F22,
    F30,
    F31,
    F29,
    F14,
    F15,
    F16,
    F17,
    F18,
    Ne20,
    Ne21,
    Ne22,
    Ne23,
    Ne24,
    Ne25,
    Ne26,
    Ne27,
    Ne28,
    Ne29,
    Ne30,
    Ne31,
    Ne32,
    Ne33,
    Ne34,
    Ne19,
    Ne17,
    Ne18,
    Ne15,
    Ne16,
    Na20,
    Na19,
    Na18,
    Na17,
    Na32,
    Na31,
    Na34,
    Na33,
    Na35,
    Na37,
    Na21,
    Na23,
    Na22,
    Na25,
    Na24,
    Na27,
    Na26,
    Na29,
    Na28,
    Na30,
    Mg23,
    Mg22,
    Mg25,
    Mg24,
    Mg27,
    Mg26,
    Mg29,
    Mg28,
    Mg31,
    Mg30,
    Mg32,
    Mg34,
    Mg33,
    Mg36,
    Mg35,
    Mg38,
    Mg37,
    Mg40,
    Mg21,
    Mg20,
    Mg19,
    Mg18,
    Al22,
    Al21,
    Al35,
    Al36,
    Al33,
    Al34,
    Al34m,
    Al39,
    Al40,
    Al37,
    Al38,
    Al41,
    Al42,
    Al43,
    Al24,
    Al24m,
    Al25,
    Al23,
    Al28,
    Al29,
    Al26,
    Al26m,
    Al27,
    Al32,
    Al30,
    Al31,
    Si44,
    Si26,
    Si27,
    Si24,
    Si25,
    Si30,
    Si31,
    Si28,
    Si29,
    Si32,
    Si33,
    Si37,
    Si38,
    Si35,
    Si36,
    Si41,
    Si42,
    Si39,
    Si40,
    Si34,
    Si43,
    Si23,
    Si22,
    P40,
    P39,
    P38,
    P37,
    P44,
    P43,
    P42,
    P41,
    P36,
    P35,
    P47,
    P46,
    P45,
    P29,
    P28,
    P27,
    P26,
    P33,
    P32,
    P31,
    P30,
    P25,
    P34,
    S49,
    S48,
    S47,
    S46,
    S31,
    S30,
    S29,
    S28,
    S35,
    S34,
    S33,
    S32,
    S27,
    S26,
    S42,
    S41,
    S40,
    S39,
    S45,
    S44,
    S43,
    S38,
    S37,
    S36,
    Cl45,
    Cl46,
    Cl41,
    Cl42,
    Cl43,
    Cl44,
    Cl37,
    Cl38,
    Cl38m,
    Cl39,
    Cl40,
    Cl52,
    Cl48,
    Cl49,
    Cl50,
    Cl51,
    Cl47,
    Cl34,
    Cl34m,
    Cl35,
    Cl36,
    Cl30,
    Cl31,
    Cl32,
    Cl33,
    Cl28,
    Cl29,
    Ar54,
    Ar50,
    Ar51,
    Ar52,
    Ar53,
    Ar48,
    Ar49,
    Ar36,
    Ar37,
    Ar32,
    Ar33,
    Ar34,
    Ar35,
    Ar29,
    Ar30,
    Ar31,
    Ar47,
    Ar43,
    Ar44,
    Ar45,
    Ar46,
    Ar39,
    Ar40,
    Ar41,
    Ar42,
    Ar38,
    K59,
    K46,
    K45,
    K48,
    K47,
    K42,
    K41,
    K44,
    K43,
    K40,
    K39,
    K57,
    K56,
    K53,
    K52,
    K55,
    K54,
    K49,
    K51,
    K50,
    K38,
    K38m,
    K35,
    K37,
    K36,
    K31,
    Ca59,
    Ca58,
    Ca57,
    Ca56,
    Ca55,
    Ca54,
    Ca53,
    Ca52,
    Ca51,
    Ca50,
    Ca60,
    Ca39,
    Ca38,
    Ca37,
    Ca36,
    Ca35,
    Ca49,
    Ca48,
    Ca47,
    Ca46,
    Ca45,
    Ca44,
    Ca43,
    Ca42,
    Ca41,
    Ca40,
    Sc50,
    Sc50m,
    Sc49,
    Sc48,
    Sc47,
    Sc46,
    Sc46m,
    Sc45,
    Sc45m,
    Sc44,
    Sc44m,
    Sc43,
    Sc42,
    Sc42m,
    Sc41,
    Sc60,
    Sc59,
    Sc58,
    Sc57,
    Sc56,
    Sc55,
    Sc54,
    Sc53,
    Sc52,
    Sc51,
    Sc40,
    Sc39,
    Sc62,
    Sc61,
    Ti61,
    Ti60,
    Ti59,
    Ti58,
    Ti57,
    Ti56,
    Ti55,
    Ti54,
    Ti53,
    Ti52,
    Ti64,
    Ti63,
    Ti62,
    Ti41,
    Ti40,
    Ti39,
    Ti51,
    Ti50,
    Ti49,
    Ti48,
    Ti47,
    Ti46,
    Ti45,
    Ti44,
    Ti43,
    Ti42,
    V64,
    V65,
    V66,
    V67,
    V63,
    V50,
    V51,
    V52,
    V43,
    V44,
    V44m,
    V45,
    V46,
    V47,
    V48,
    V49,
    V61,
    V62,
    V53,
    V54,
    V55,
    V56,
    V57,
    V58,
    V59,
    V60,
    V60m,
    V42,
    Cr63,
    Cr55,
    Cr56,
    Cr57,
    Cr58,
    Cr59,
    Cr60,
    Cr61,
    Cr62,
    Cr54,
    Cr66,
    Cr67,
    Cr68,
    Cr69,
    Cr70,
    Cr64,
    Cr65,
    Cr42,
    Cr43,
    Cr52,
    Cr53,
    Cr44,
    Cr45,
    Cr46,
    Cr47,
    Cr48,
    Cr49,
    Cr50,
    Cr51,
    Mn69,
    Mn68,
    Mn71,
    Mn70,
    Mn73,
    Mn72,
    Mn65,
    Mn67,
    Mn66,
    Mn54,
    Mn47,
    Mn46,
    Mn49,
    Mn48,
    Mn51,
    Mn50,
    Mn50m,
    Mn53,
    Mn52,
    Mn52m,
    Mn58,
    Mn58m,
    Mn57,
    Mn60,
    Mn60m,
    Mn59,
    Mn62,
    Mn62m,
    Mn61,
    Mn64,
    Mn63,
    Mn56,
    Mn55,
    Mn44,
    Fe60,
    Fe59,
    Fe62,
    Fe61,
    Fe64,
    Fe63,
    Fe65,
    Fe65m,
    Fe56,
    Fe58,
    Fe57,
    Fe71,
    Fe70,
    Fe73,
    Fe72,
    Fe75,
    Fe74,
    Fe67,
    Fe66,
    Fe69,
    Fe68,
    Fe45,
    Fe49,
    Fe48,
    Fe51,
    Fe50,
    Fe53,
    Fe53m,
    Fe52,
    Fe52m,
    Fe55,
    Fe54,
    Fe47,
    Fe46,
    Fe76,
    Co74,
    Co75,
    Co72,
    Co72m,
    Co72m1,
    Co73,
    Co76,
    Co76m,
    Co67,
    Co67m,
    Co70,
    Co70m,
    Co71,
    Co68,
    Co68m,
    Co69,
    Co69m,
    Co77,
    Co78,
    Co52,
    Co52m,
    Co53,
    Co53m,
    Co50,
    Co51,
    Co56,
    Co54,
    Co54m,
    Co55,
    Co63,
    Co64,
    Co64m,
    Co61,
    Co62,
    Co62m,
    Co65,
    Co66,
    Co59,
    Co60,
    Co60m,
    Co57,
    Co58,
    Co58m,
    Ni79,
    Ni80,
    Ni78,
    Ni81,
    Ni82,
    Ni65,
    Ni66,
    Ni63,
    Ni64,
    Ni67,
    Ni58,
    Ni61,
    Ni62,
    Ni59,
    Ni60,
    Ni76,
    Ni77,
    Ni74,
    Ni75,
    Ni68,
    Ni69,
    Ni69m,
    Ni72,
    Ni73,
    Ni70,
    Ni71,
    Ni71m,
    Ni54,
    Ni55,
    Ni52,
    Ni53,
    Ni56,
    Ni57,
    Ni50,
    Ni51,
    Ni48,
    Ni49,
    Cu57,
    Cu56,
    Cu55,
    Cu54,
    Cu58,
    Cu53,
    Cu68,
    Cu68m,
    Cu67,
    Cu66,
    Cu65,
    Cu60,
    Cu59,
    Cu64,
    Cu63,
    Cu62,
    Cu61,
    Cu78,
    Cu77,
    Cu76,
    Cu71,
    Cu70,
    Cu70m,
    Cu70m1,
    Cu69,
    Cu75,
    Cu74,
    Cu73,
    Cu72,
    Cu82,
    Cu81,
    Cu80,
    Cu79,
    Cu83,
    Zn58,
    Zn57,
    Zn59,
    Zn54,
    Zn56,
    Zn55,
    Zn83,
    Zn82,
    Zn85,
    Zn84,
    Zn81,
    Zn80,
    Zn72,
    Zn71,
    Zn71m,
    Zn74,
    Zn73,
    Zn70,
    Zn79,
    Zn79m,
    Zn76,
    Zn75,
    Zn78,
    Zn77,
    Zn77m,
    Zn61,
    Zn60,
    Zn63,
    Zn62,
    Zn69,
    Zn69m,
    Zn68,
    Zn65,
    Zn64,
    Zn67,
    Zn66,
    Ga85,
    Ga84,
    Ga87,
    Ga86,
    Ga81,
    Ga83,
    Ga82,
    Ga74,
    Ga74m,
    Ga73,
    Ga76,
    Ga75,
    Ga72,
    Ga71,
    Ga78,
    Ga77,
    Ga80,
    Ga80m,
    Ga79,
    Ga63,
    Ga62,
    Ga65,
    Ga64,
    Ga61,
    Ga70,
    Ga67,
    Ga66,
    Ga69,
    Ga68,
    Ga60,
    Ga59,
    Ge77,
    Ge77m,
    Ge78,
    Ge75,
    Ge75m,
    Ge76,
    Ge73,
    Ge73m,
    Ge74,
    Ge72,
    Ge81,
    Ge81m,
    Ge79,
    Ge79m,
    Ge80,
    Ge66,
    Ge67,
    Ge64,
    Ge65,
    Ge62,
    Ge63,
    Ge70,
    Ge71,
    Ge68,
    Ge69,
    Ge61,
    Ge59,
    Ge60,
    Ge88,
    Ge89,
    Ge86,
    Ge87,
    Ge84,
    Ge85,
    Ge82,
    Ge83,
    Ge90,
    As83,
    As90,
    As91,
    As88,
    As89,
    As86,
    As87,
    As84,
    As85,
    As92,
    As79,
    As80,
    As77,
    As78,
    As75,
    As76,
    As73,
    As74,
    As81,
    As82,
    As82m,
    As68,
    As69,
    As66,
    As67,
    As64,
    As65,
    As63,
    As72,
    As70,
    As71,
    Se95,
    Se94,
    Se84,
    Se85,
    Se92,
    Se93,
    Se90,
    Se91,
    Se88,
    Se89,
    Se86,
    Se87,
    Se74,
    Se81,
    Se81m,
    Se82,
    Se79,
    Se79m,
    Se80,
    Se77,
    Se77m,
    Se78,
    Se75,
    Se76,
    Se83,
    Se83m,
    Se70,
    Se71,
    Se68,
    Se69,
    Se66,
    Se67,
    Se64,
    Se65,
    Se72,
    Se73,
    Se73m,
    Se63,
    Br98,
    Br97,
    Br96,
    Br95,
    Br87,
    Br86,
    Br85,
    Br94,
    Br93,
    Br92,
    Br91,
    Br90,
    Br89,
    Br88,
    Br76,
    Br76m,
    Br75,
    Br84,
    Br84m,
    Br83,
    Br82,
    Br82m,
    Br81,
    Br80,
    Br80m,
    Br79,
    Br79m,
    Br78,
    Br77,
    Br77m,
    Br73,
    Br72,
    Br72m,
    Br71,
    Br70,
    Br70m,
    Br69,
    Br68,
    Br74,
    Br74m,
    Kr100,
    Kr99,
    Kr98,
    Kr97,
    Kr96,
    Kr101,
    Kr89,
    Kr88,
    Kr87,
    Kr86,
    Kr95,
    Kr94,
    Kr93,
    Kr92,
    Kr91,
    Kr90,
    Kr78,
    Kr77,
    Kr76,
    Kr85,
    Kr85m,
    Kr84,
    Kr83,
    Kr83m,
    Kr82,
    Kr81,
    Kr81m,
    Kr80,
    Kr79,
    Kr79m,
    Kr67,
    Kr75,
    Kr74,
    Kr73,
    Kr72,
    Kr71,
    Kr70,
    Kr69,
    Kr68,
    Rb92,
    Rb93,
    Rb94,
    Rb95,
    Rb96,
    Rb87,
    Rb88,
    Rb89,
    Rb90,
    Rb90m,
    Rb91,
    Rb81,
    Rb81m,
    Rb82,
    Rb82m,
    Rb83,
    Rb84,
    Rb84m,
    Rb85,
    Rb86,
    Rb86m,
    Rb77,
    Rb78,
    Rb78m,
    Rb79,
    Rb80,
    Rb72,
    Rb73,
    Rb74,
    Rb75,
    Rb76,
    Rb103,
    Rb104,
    Rb97,
    Rb98,
    Rb98m,
    Rb99,
    Rb100,
    Rb101,
    Rb102,
    Sr105,
    Sr106,
    Sr107,
    Sr98,
    Sr99,
    Sr100,
    Sr101,
    Sr102,
    Sr103,
    Sr104,
    Sr94,
    Sr95,
    Sr96,
    Sr97,
    Sr88,
    Sr89,
    Sr90,
    Sr91,
    Sr92,
    Sr93,
    Sr83,
    Sr83m,
    Sr84,
    Sr85,
    Sr85m,
    Sr86,
    Sr87,
    Sr87m,
    Sr78,
    Sr79,
    Sr80,
    Sr81,
    Sr82,
    Sr73,
    Sr74,
    Sr75,
    Sr76,
    Sr77,
    Y108,
    Y107,
    Y100,
    Y100m,
    Y99,
    Y102,
    Y102m,
    Y101,
    Y104,
    Y103,
    Y106,
    Y105,
    Y109,
    Y97,
    Y97m,
    Y97m1,
    Y96,
    Y96m,
    Y98,
    Y98m,
    Y89,
    Y89m,
    Y91,
    Y91m,
    Y90,
    Y90m,
    Y93,
    Y93m,
    Y92,
    Y95,
    Y94,
    Y86,
    Y86m,
    Y85,
    Y85m,
    Y88,
    Y87,
    Y87m,
    Y80,
    Y80m,
    Y79,
    Y82,
    Y81,
    Y84,
    Y84m,
    Y83,
    Y83m,
    Y77,
    Y76,
    Y78,
    Y78m,
    Zr109,
    Zr108,
    Zr107,
    Zr106,
    Zr101,
    Zr100,
    Zr105,
    Zr104,
    Zr103,
    Zr102,
    Zr98,
    Zr97,
    Zr96,
    Zr95,
    Zr99,
    Zr90,
    Zr90m,
    Zr94,
    Zr93,
    Zr92,
    Zr91,
    Zr87,
    Zr87m,
    Zr86,
    Zr85,
    Zr85m,
    Zr84,
    Zr89,
    Zr89m,
    Zr88,
    Zr83,
    Zr82,
    Zr81,
    Zr80,
    Zr79,
    Zr78,
    Zr77,
    Zr112,
    Zr111,
    Zr110,
    Zr113,
    Nb114,
    Nb113,
    Nb112,
    Nb111,
    Nb116,
    Nb115,
    Nb110,
    Nb110m,
    Nb109,
    Nb108,
    Nb103,
    Nb102,
    Nb102m,
    Nb101,
    Nb107,
    Nb106,
    Nb105,
    Nb104,
    Nb104m,
    Nb100,
    Nb100m,
    Nb99,
    Nb99m,
    Nb98,
    Nb98m,
    Nb97,
    Nb97m,
    Nb92,
    Nb92m,
    Nb91,
    Nb91m,
    Nb96,
    Nb95,
    Nb95m,
    Nb94,
    Nb94m,
    Nb93,
    Nb93m,
    Nb89,
    Nb89m,
    Nb88,
    Nb88m,
    Nb87,
    Nb87m,
    Nb86,
    Nb90,
    Nb90m,
    Nb81,
    Nb85,
    Nb85m,
    Nb84,
    Nb83,
    Nb82,
    Mo112,
    Mo117,
    Mo118,
    Mo119,
    Mo113,
    Mo114,
    Mo115,
    Mo116,
    Mo110,
    Mo111,
    Mo111m,
    Mo106,
    Mo107,
    Mo108,
    Mo109,
    Mo102,
    Mo103,
    Mo104,
    Mo105,
    Mo99,
    Mo100,
    Mo101,
    Mo95,
    Mo96,
    Mo97,
    Mo98,
    Mo92,
    Mo93,
    Mo93m,
    Mo94,
    Mo88,
    Mo89,
    Mo89m,
    Mo90,
    Mo91,
    Mo91m,
    Mo84,
    Mo85,
    Mo86,
    Mo87,
    Mo87m,
    Mo82,
    Mo83,
    Mo81,
    Tc101,
    Tc102,
    Tc102m,
    Tc97,
    Tc97m,
    Tc98,
    Tc99,
    Tc99m,
    Tc100,
    Tc93,
    Tc93m,
    Tc94,
    Tc94m,
    Tc95,
    Tc95m,
    Tc96,
    Tc96m,
    Tc90,
    Tc90m,
    Tc91,
    Tc91m,
    Tc92,
    Tc86,
    Tc87,
    Tc88,
    Tc88m,
    Tc89,
    Tc89m,
    Tc85,
    Tc113,
    Tc114,
    Tc114m,
    Tc119,
    Tc120,
    Tc121,
    Tc122,
    Tc115,
    Tc116,
    Tc117,
    Tc118,
    Tc112,
    Tc103,
    Tc108,
    Tc109,
    Tc110,
    Tc111,
    Tc104,
    Tc105,
    Tc106,
    Tc107,
    Ru125,
    Ru124,
    Ru114,
    Ru116,
    Ru115,
    Ru122,
    Ru121,
    Ru123,
    Ru118,
    Ru117,
    Ru120,
    Ru119,
    Ru105,
    Ru104,
    Ru111,
    Ru110,
    Ru113,
    Ru113m,
    Ru112,
    Ru107,
    Ru106,
    Ru109,
    Ru108,
    Ru103,
    Ru94,
    Ru100,
    Ru99,
    Ru102,
    Ru101,
    Ru96,
    Ru95,
    Ru98,
    Ru97,
    Ru93,
    Ru93m,
    Ru92,
    Ru89,
    Ru88,
    Ru91,
    Ru91m,
    Ru90,
    Ru85,
    Ru87,
    Ru86,
    Rh127,
    Rh126,
    Rh128,
    Rh125,
    Rh116,
    Rh116m,
    Rh115,
    Rh118,
    Rh118m,
    Rh117,
    Rh124,
    Rh123,
    Rh120,
    Rh119,
    Rh122,
    Rh121,
    Rh105,
    Rh105m,
    Rh107,
    Rh106,
    Rh106m,
    Rh113,
    Rh112,
    Rh112m,
    Rh114,
    Rh114m,
    Rh109,
    Rh108,
    Rh108m,
    Rh111,
    Rh110,
    Rh110m,
    Rh96,
    Rh96m,
    Rh95,
    Rh95m,
    Rh102,
    Rh102m,
    Rh101,
    Rh101m,
    Rh104,
    Rh104m,
    Rh103,
    Rh103m,
    Rh98,
    Rh98m,
    Rh97,
    Rh97m,
    Rh100,
    Rh100m,
    Rh99,
    Rh99m,
    Rh94,
    Rh94m,
    Rh91,
    Rh91m,
    Rh90,
    Rh90m,
    Rh93,
    Rh93m,
    Rh92,
    Rh92m,
    Rh89,
    Pd129,
    Pd128,
    Pd131,
    Pd130,
    Pd127,
    Pd126,
    Pd126m,
    Pd118,
    Pd117,
    Pd120,
    Pd119,
    Pd119m,
    Pd116,
    Pd125,
    Pd122,
    Pd121,
    Pd124,
    Pd123,
    Pd123m,
    Pd107,
    Pd107m,
    Pd106,
    Pd109,
    Pd109m,
    Pd108,
    Pd115,
    Pd115m,
    Pd114,
    Pd111,
    Pd111m,
    Pd110,
    Pd113,
    Pd113m,
    Pd112,
    Pd96,
    Pd98,
    Pd97,
    Pd104,
    Pd103,
    Pd105,
    Pd100,
    Pd99,
    Pd102,
    Pd101,
    Pd93,
    Pd92,
    Pd95,
    Pd95m,
    Pd95m1,
    Pd94,
    Pd91,
    Pd90,
    Ag132,
    Ag130,
    Ag131,
    Ag128,
    Ag129,
    Ag129m,
    Ag127,
    Ag127m,
    Ag121,
    Ag122,
    Ag122m,
    Ag119,
    Ag119m,
    Ag120,
    Ag120m,
    Ag120m1,
    Ag117,
    Ag117m,
    Ag118,
    Ag118m,
    Ag125,
    Ag125m,
    Ag126,
    Ag126m,
    Ag123,
    Ag124,
    Ag124m,
    Ag110,
    Ag110m,
    Ag111,
    Ag111m,
    Ag108,
    Ag108m,
    Ag109,
    Ag109m,
    Ag107,
    Ag107m,
    Ag116,
    Ag116m,
    Ag116m1,
    Ag114,
    Ag115,
    Ag115m,
    Ag112,
    Ag113,
    Ag113m,
    Ag99,
    Ag99m,
    Ag100,
    Ag100m,
    Ag97,
    Ag98,
    Ag105,
    Ag105m,
    Ag106,
    Ag106m,
    Ag103,
    Ag103m,
    Ag104,
    Ag104m,
    Ag101,
    Ag101m,
    Ag102,
    Ag102m,
    Ag96,
    Ag96m,
    Ag94,
    Ag94m,
    Ag94m1,
    Ag95,
    Ag92,
    Ag93,
    Cd112,
    Cd113,
    Cd113m,
    Cd110,
    Cd111,
    Cd111m,
    Cd108,
    Cd109,
    Cd116,
    Cd117,
    Cd117m,
    Cd114,
    Cd115,
    Cd115m,
    Cd101,
    Cd102,
    Cd99,
    Cd100,
    Cd98,
    Cd107,
    Cd105,
    Cd106,
    Cd103,
    Cd104,
    Cd96,
    Cd96m,
    Cd97,
    Cd97m,
    Cd97m1,
    Cd94,
    Cd95,
    Cd134,
    Cd132,
    Cd133,
    Cd130,
    Cd131,
    Cd128,
    Cd129,
    Cd129m,
    Cd123,
    Cd123m,
    Cd124,
    Cd121,
    Cd121m,
    Cd122,
    Cd119,
    Cd119m,
    Cd120,
    Cd118,
    Cd127,
    Cd127m,
    Cd125,
    Cd125m,
    Cd126,
    In137,
    In136,
    In135,
    In134,
    In133,
    In133m,
    In132,
    In131,
    In131m,
    In131m1,
    In130,
    In130m,
    In130m1,
    In129,
    In129m,
    In129m1,
    In129m2,
    In126,
    In126m,
    In125,
    In125m,
    In124,
    In124m,
    In123,
    In123m,
    In122,
    In122m,
    In122m1,
    In121,
    In121m,
    In120,
    In120m,
    In120m1,
    In119,
    In119m,
    In128,
    In128m,
    In128m1,
    In127,
    In127m,
    In127m1,
    In115,
    In115m,
    In114,
    In114m,
    In113,
    In113m,
    In112,
    In112m,
    In111,
    In111m,
    In110,
    In110m,
    In109,
    In109m,
    In109m1,
    In118,
    In118m,
    In118m1,
    In117,
    In117m,
    In116,
    In116m,
    In116m1,
    In104,
    In104m,
    In103,
    In103m,
    In102,
    In101,
    In101m,
    In100,
    In99,
    In108,
    In108m,
    In107,
    In107m,
    In106,
    In106m,
    In105,
    In105m,
    In98,
    In98m,
    In97,
    In96,
    Sn99,
    Sn101,
    Sn100,
    Sn103,
    Sn102,
    Sn105,
    Sn104,
    Sn107,
    Sn106,
    Sn109,
    Sn108,
    Sn110,
    Sn112,
    Sn111,
    Sn114,
    Sn113,
    Sn113m,
    Sn116,
    Sn115,
    Sn118,
    Sn117,
    Sn117m,
    Sn119,
    Sn119m,
    Sn121,
    Sn121m,
    Sn120,
    Sn123,
    Sn123m,
    Sn122,
    Sn125,
    Sn125m,
    Sn124,
    Sn127,
    Sn127m,
    Sn126,
    Sn129,
    Sn129m,
    Sn128,
    Sn128m,
    Sn130,
    Sn130m,
    Sn132,
    Sn131,
    Sn131m,
    Sn134,
    Sn133,
    Sn136,
    Sn135,
    Sn138,
    Sn137,
    Sn139,
    Sn140,
    Sb105,
    Sb104,
    Sb107,
    Sb106,
    Sb109,
    Sb108,
    Sb110,
    Sb112,
    Sb111,
    Sb114,
    Sb113,
    Sb116,
    Sb116m,
    Sb115,
    Sb118,
    Sb118m,
    Sb117,
    Sb120,
    Sb120m,
    Sb119,
    Sb119m,
    Sb121,
    Sb123,
    Sb122,
    Sb122m,
    Sb125,
    Sb124,
    Sb124m,
    Sb124m1,
    Sb127,
    Sb126,
    Sb126m,
    Sb126m1,
    Sb129,
    Sb129m,
    Sb128,
    Sb128m,
    Sb130,
    Sb130m,
    Sb132,
    Sb132m,
    Sb131,
    Sb134,
    Sb134m,
    Sb133,
    Sb136,
    Sb135,
    Sb138,
    Sb137,
    Sb140,
    Sb139,
    Sb141,
    Sb142,
    Te106,
    Te107,
    Te104,
    Te105,
    Te110,
    Te111,
    Te108,
    Te109,
    Te113,
    Te114,
    Te112,
    Te117,
    Te117m,
    Te118,
    Te115,
    Te115m,
    Te116,
    Te121,
    Te121m,
    Te119,
    Te119m,
    Te120,
    Te124,
    Te125,
    Te125m,
    Te122,
    Te123,
    Te123m,
    Te128,
    Te129,
    Te129m,
    Te126,
    Te127,
    Te127m,
    Te130,
    Te131,
    Te131m,
    Te131m1,
    Te132,
    Te135,
    Te136,
    Te133,
    Te133m,
    Te134,
    Te139,
    Te140,
    Te137,
    Te138,
    Te141,
    Te142,
    Te143,
    Te144,
    Te145,
    I108,
    I109,
    I112,
    I110,
    I111,
    I115,
    I116,
    I113,
    I114,
    I114m,
    I119,
    I120,
    I120m,
    I117,
    I118,
    I118m,
    I121,
    I122,
    I123,
    I126,
    I127,
    I124,
    I125,
    I130,
    I130m,
    I131,
    I128,
    I129,
    I132,
    I132m,
    I133,
    I133m,
    I134,
    I134m,
    I137,
    I138,
    I135,
    I136,
    I136m,
    I141,
    I142,
    I139,
    I140,
    I140m,
    I140m1,
    I144,
    I145,
    I143,
    I146,
    I147,
    Xe125,
    Xe125m,
    Xe124,
    Xe129,
    Xe129m,
    Xe128,
    Xe127,
    Xe127m,
    Xe126,
    Xe133,
    Xe133m,
    Xe132,
    Xe131,
    Xe131m,
    Xe130,
    Xe136,
    Xe135,
    Xe135m,
    Xe134,
    Xe134m,
    Xe140,
    Xe139,
    Xe138,
    Xe137,
    Xe143,
    Xe142,
    Xe141,
    Xe147,
    Xe146,
    Xe145,
    Xe144,
    Xe150,
    Xe149,
    Xe148,
    Xe111,
    Xe110,
    Xe109,
    Xe108,
    Xe113,
    Xe112,
    Xe114,
    Xe118,
    Xe117,
    Xe116,
    Xe115,
    Xe122,
    Xe121,
    Xe120,
    Xe119,
    Xe123,
    Cs113,
    Cs112,
    Cs114,
    Cs116,
    Cs116m,
    Cs115,
    Cs120,
    Cs120m,
    Cs119,
    Cs119m,
    Cs118,
    Cs118m,
    Cs117,
    Cs117m,
    Cs124,
    Cs124m,
    Cs123,
    Cs123m,
    Cs122,
    Cs122m,
    Cs122m1,
    Cs121,
    Cs121m,
    Cs127,
    Cs126,
    Cs125,
    Cs131,
    Cs130,
    Cs130m,
    Cs129,
    Cs128,
    Cs134,
    Cs134m,
    Cs133,
    Cs132,
    Cs138,
    Cs138m,
    Cs137,
    Cs136,
    Cs136m,
    Cs135,
    Cs135m,
    Cs142,
    Cs141,
    Cs140,
    Cs139,
    Cs144,
    Cs143,
    Cs145,
    Cs149,
    Cs148,
    Cs147,
    Cs146,
    Cs152,
    Cs151,
    Cs150,
    Ba148,
    Ba149,
    Ba150,
    Ba151,
    Ba146,
    Ba147,
    Ba152,
    Ba153,
    Ba154,
    Ba114,
    Ba115,
    Ba116,
    Ba117,
    Ba118,
    Ba123,
    Ba124,
    Ba125,
    Ba119,
    Ba120,
    Ba121,
    Ba122,
    Ba126,
    Ba127,
    Ba127m,
    Ba128,
    Ba129,
    Ba129m,
    Ba134,
    Ba135,
    Ba135m,
    Ba130,
    Ba131,
    Ba131m,
    Ba132,
    Ba133,
    Ba133m,
    Ba137,
    Ba137m,
    Ba138,
    Ba139,
    Ba140,
    Ba136,
    Ba136m,
    Ba145,
    Ba141,
    Ba142,
    Ba143,
    Ba144,
    La117,
    La120,
    La125,
    La125m,
    La126,
    La126m,
    La121,
    La122,
    La123,
    La124,
    La124m,
    La128,
    La128m,
    La129,
    La129m,
    La130,
    La131,
    La127,
    La127m,
    La136,
    La136m,
    La132,
    La132m,
    La133,
    La134,
    La135,
    La139,
    La140,
    La141,
    La142,
    La137,
    La138,
    La143,
    La144,
    La145,
    La146,
    La146m,
    La150,
    La151,
    La152,
    La153,
    La147,
    La148,
    La149,
    La154,
    La155,
    La156,
    La157,
    Ce158,
    Ce121,
    Ce122,
    Ce127,
    Ce127m,
    Ce123,
    Ce124,
    Ce125,
    Ce125m,
    Ce126,
    Ce130,
    Ce131,
    Ce131m,
    Ce132,
    Ce133,
    Ce133m,
    Ce128,
    Ce129,
    Ce134,
    Ce135,
    Ce135m,
    Ce136,
    Ce137,
    Ce137m,
    Ce141,
    Ce142,
    Ce143,
    Ce144,
    Ce138,
    Ce138m,
    Ce139,
    Ce139m,
    Ce140,
    Ce145,
    Ce146,
    Ce147,
    Ce152,
    Ce153,
    Ce154,
    Ce155,
    Ce148,
    Ce149,
    Ce150,
    Ce151,
    Ce156,
    Ce157,
    Pr159,
    Pr160,
    Pr161,
    Pr144,
    Pr144m,
    Pr143,
    Pr146,
    Pr145,
    Pr140,
    Pr139,
    Pr142,
    Pr142m,
    Pr141,
    Pr148,
    Pr148m,
    Pr147,
    Pr149,
    Pr155,
    Pr154,
    Pr157,
    Pr156,
    Pr151,
    Pr150,
    Pr153,
    Pr152,
    Pr158,
    Pr121,
    Pr124,
    Pr126,
    Pr125,
    Pr128,
    Pr127,
    Pr133,
    Pr133m,
    Pr132,
    Pr135,
    Pr134,
    Pr134m,
    Pr129,
    Pr131,
    Pr131m,
    Pr130,
    Pr130m,
    Pr137,
    Pr136,
    Pr138,
    Pr138m,
    Nd163,
    Nd161,
    Nd162,
    Nd160,
    Nd134,
    Nd133,
    Nd133m,
    Nd132,
    Nd131,
    Nd130,
    Nd139,
    Nd139m,
    Nd138,
    Nd137,
    Nd137m,
    Nd136,
    Nd135,
    Nd135m,
    Nd145,
    Nd144,
    Nd143,
    Nd142,
    Nd141,
    Nd141m,
    Nd140,
    Nd149,
    Nd148,
    Nd147,
    Nd146,
    Nd156,
    Nd155,
    Nd154,
    Nd153,
    Nd152,
    Nd151,
    Nd150,
    Nd159,
    Nd158,
    Nd157,
    Nd129,
    Nd129m,
    Nd128,
    Nd127,
    Nd126,
    Nd125,
    Pm130,
    Pm129,
    Pm128,
    Pm136,
    Pm136m,
    Pm135,
    Pm135m,
    Pm134,
    Pm134m,
    Pm133,
    Pm133m,
    Pm132,
    Pm131,
    Pm140,
    Pm140m,
    Pm139,
    Pm139m,
    Pm138,
    Pm137,
    Pm137m,
    Pm147,
    Pm146,
    Pm145,
    Pm144,
    Pm143,
    Pm142,
    Pm141,
    Pm150,
    Pm149,
    Pm148,
    Pm148m,
    Pm158,
    Pm157,
    Pm156,
    Pm156m,
    Pm155,
    Pm154,
    Pm154m,
    Pm153,
    Pm152,
    Pm152m,
    Pm152m1,
    Pm151,
    Pm160,
    Pm160m,
    Pm159,
    Pm165,
    Pm161,
    Pm162,
    Pm163,
    Pm164,
    Sm129,
    Sm130,
    Sm131,
    Sm139,
    Sm139m,
    Sm140,
    Sm141,
    Sm141m,
    Sm132,
    Sm133,
    Sm133m,
    Sm134,
    Sm135,
    Sm136,
    Sm137,
    Sm138,
    Sm150,
    Sm151,
    Sm142,
    Sm143,
    Sm143m,
    Sm144,
    Sm145,
    Sm146,
    Sm147,
    Sm148,
    Sm149,
    Sm164,
    Sm163,
    Sm162,
    Sm168,
    Sm167,
    Sm166,
    Sm165,
    Sm161,
    Sm152,
    Sm153,
    Sm154,
    Sm155,
    Sm156,
    Sm157,
    Sm158,
    Sm159,
    Sm160,
    Eu170,
    Eu169,
    Eu164,
    Eu163,
    Eu166,
    Eu165,
    Eu168,
    Eu167,
    Eu130,
    Eu131,
    Eu132,
    Eu141,
    Eu141m,
    Eu142,
    Eu142m,
    Eu134,
    Eu135,
    Eu136,
    Eu136m,
    Eu137,
    Eu138,
    Eu139,
    Eu140,
    Eu140m,
    Eu152,
    Eu152m,
    Eu152m1,
    Eu143,
    Eu144,
    Eu145,
    Eu146,
    Eu147,
    Eu148,
    Eu149,
    Eu150,
    Eu150m,
    Eu151,
    Eu153,
    Eu154,
    Eu154m,
    Eu155,
    Eu156,
    Eu157,
    Eu158,
    Eu159,
    Eu160,
    Eu160m,
    Eu161,
    Eu162,
    Eu162m,
    Gd143,
    Gd143m,
    Gd134,
    Gd136,
    Gd135,
    Gd138,
    Gd137,
    Gd140,
    Gd139,
    Gd139m,
    Gd142,
    Gd141,
    Gd141m,
    Gd145,
    Gd145m,
    Gd144,
    Gd147,
    Gd146,
    Gd149,
    Gd148,
    Gd151,
    Gd150,
    Gd153,
    Gd152,
    Gd154,
    Gd156,
    Gd155,
    Gd158,
    Gd157,
    Gd160,
    Gd159,
    Gd162,
    Gd161,
    Gd163,
    Gd163m,
    Gd168,
    Gd167,
    Gd166,
    Gd165,
    Gd164,
    Gd172,
    Gd171,
    Gd170,
    Gd169,
    Tb166,
    Tb165,
    Tb168,
    Tb167,
    Tb174,
    Tb173,
    Tb170,
    Tb169,
    Tb172,
    Tb171,
    Tb145,
    Tb147,
    Tb147m,
    Tb146,
    Tb146m,
    Tb149,
    Tb149m,
    Tb148,
    Tb148m,
    Tb151,
    Tb151m,
    Tb150,
    Tb150m,
    Tb153,
    Tb152,
    Tb152m,
    Tb154,
    Tb154m,
    Tb154m1,
    Tb156,
    Tb156m,
    Tb156m1,
    Tb155,
    Tb158,
    Tb158m,
    Tb157,
    Tb160,
    Tb159,
    Tb162,
    Tb162m,
    Tb161,
    Tb164,
    Tb164m,
    Tb163,
    Tb135,
    Tb138,
    Tb140,
    Tb139,
    Tb142,
    Tb142m,
    Tb141,
    Tb144,
    Tb144m,
    Tb143,
    Tb143m,
    Dy141,
    Dy142,
    Dy139,
    Dy140,
    Dy145,
    Dy145m,
    Dy143,
    Dy143m,
    Dy144,
    Dy148,
    Dy149,
    Dy149m,
    Dy146,
    Dy146m,
    Dy147,
    Dy147m,
    Dy152,
    Dy153,
    Dy150,
    Dy151,
    Dy154,
    Dy155,
    Dy156,
    Dy159,
    Dy160,
    Dy157,
    Dy158,
    Dy163,
    Dy164,
    Dy161,
    Dy162,
    Dy165,
    Dy165m,
    Dy176,
    Dy168,
    Dy167,
    Dy166,
    Dy172,
    Dy172m,
    Dy171,
    Dy170,
    Dy169,
    Dy175,
    Dy174,
    Dy173,
    Ho140,
    Ho143,
    Ho144,
    Ho141,
    Ho142,
    Ho145,
    Ho146,
    Ho147,
    Ho150,
    Ho150m,
    Ho151,
    Ho151m,
    Ho148,
    Ho148m,
    Ho149,
    Ho149m,
    Ho154,
    Ho154m,
    Ho155,
    Ho152,
    Ho152m,
    Ho153,
    Ho153m,
    Ho156,
    Ho156m,
    Ho156m1,
    Ho157,
    Ho158,
    Ho158m,
    Ho158m1,
    Ho161,
    Ho161m,
    Ho162,
    Ho162m,
    Ho159,
    Ho159m,
    Ho160,
    Ho160m,
    Ho160m1,
    Ho165,
    Ho166,
    Ho166m,
    Ho163,
    Ho163m,
    Ho164,
    Ho164m,
    Ho168,
    Ho168m,
    Ho167,
    Ho170,
    Ho170m,
    Ho169,
    Ho172,
    Ho171,
    Ho174,
    Ho173,
    Ho176,
    Ho175,
    Ho177,
    Ho178,
    Er176,
    Er175,
    Er174,
    Er174m,
    Er173,
    Er172,
    Er171,
    Er170,
    Er169,
    Er168,
    Er177,
    Er180,
    Er179,
    Er178,
    Er146,
    Er145,
    Er145m,
    Er144,
    Er143,
    Er147,
    Er147m,
    Er149,
    Er149m,
    Er148,
    Er153,
    Er152,
    Er151,
    Er151m,
    Er150,
    Er157,
    Er156,
    Er155,
    Er154,
    Er160,
    Er159,
    Er158,
    Er164,
    Er163,
    Er162,
    Er161,
    Er167,
    Er167m,
    Er166,
    Er165,
    Tm144,
    Tm148,
    Tm147,
    Tm146,
    Tm146m,
    Tm146m1,
    Tm145,
    Tm151,
    Tm151m,
    Tm150,
    Tm150m,
    Tm149,
    Tm155,
    Tm155m,
    Tm154,
    Tm154m,
    Tm153,
    Tm153m,
    Tm152,
    Tm152m,
    Tm158,
    Tm157,
    Tm156,
    Tm162,
    Tm162m,
    Tm161,
    Tm161m,
    Tm160,
    Tm160m,
    Tm159,
    Tm166,
    Tm166m,
    Tm165,
    Tm164,
    Tm164m,
    Tm163,
    Tm168,
    Tm167,
    Tm178,
    Tm177,
    Tm177m,
    Tm174,
    Tm174m,
    Tm173,
    Tm176,
    Tm175,
    Tm170,
    Tm169,
    Tm172,
    Tm171,
    Tm181,
    Tm180,
    Tm179,
    Yb149,
    Yb159,
    Yb156,
    Yb155,
    Yb158,
    Yb157,
    Yb152,
    Yb151,
    Yb151m,
    Yb154,
    Yb153,
    Yb150,
    Yb167,
    Yb166,
    Yb169,
    Yb169m,
    Yb168,
    Yb163,
    Yb162,
    Yb165,
    Yb164,
    Yb161,
    Yb160,
    Yb171,
    Yb170,
    Yb182,
    Yb181,
    Yb180,
    Yb175,
    Yb174,
    Yb173,
    Yb172,
    Yb179,
    Yb178,
    Yb177,
    Yb177m,
    Yb176,
    Yb176m,
    Yb185,
    Yb184,
    Yb183,
    Lu173,
    Lu172,
    Lu172m,
    Lu175,
    Lu174,
    Lu174m,
    Lu177,
    Lu177m,
    Lu176,
    Lu176m,
    Lu179,
    Lu178,
    Lu178m,
    Lu180,
    Lu182,
    Lu181,
    Lu171,
    Lu171m,
    Lu184,
    Lu183,
    Lu186,
    Lu185,
    Lu188,
    Lu187,
    Lu158,
    Lu157,
    Lu157m,
    Lu160,
    Lu160m,
    Lu159,
    Lu154,
    Lu154m,
    Lu153,
    Lu156,
    Lu156m,
    Lu155,
    Lu155m,
    Lu152,
    Lu151,
    Lu151m,
    Lu169,
    Lu169m,
    Lu168,
    Lu168m,
    Lu170,
    Lu170m,
    Lu165,
    Lu164,
    Lu167,
    Lu167m,
    Lu166,
    Lu166m,
    Lu166m1,
    Lu161,
    Lu163,
    Lu162,
    Lu162m,
    Lu162m1,
    Lu150,
    Hf161,
    Hf159,
    Hf160,
    Hf157,
    Hf158,
    Hf155,
    Hf156,
    Hf153,
    Hf154,
    Hf170,
    Hf171,
    Hf171m,
    Hf168,
    Hf169,
    Hf166,
    Hf167,
    Hf164,
    Hf165,
    Hf162,
    Hf163,
    Hf181,
    Hf180,
    Hf180m,
    Hf179,
    Hf179m,
    Hf179m1,
    Hf178,
    Hf178m,
    Hf178m1,
    Hf177,
    Hf177m,
    Hf177m1,
    Hf176,
    Hf175,
    Hf174,
    Hf173,
    Hf172,
    Hf182,
    Hf182m,
    Hf190,
    Hf189,
    Hf188,
    Hf187,
    Hf186,
    Hf186m,
    Hf185,
    Hf184,
    Hf184m,
    Hf184m1,
    Hf183,
    Ta161,
    Ta161m,
    Ta162,
    Ta159,
    Ta159m,
    Ta160,
    Ta160m,
    Ta157,
    Ta158,
    Ta155,
    Ta156,
    Ta156m,
    Ta172,
    Ta170,
    Ta171,
    Ta168,
    Ta169,
    Ta166,
    Ta167,
    Ta164,
    Ta165,
    Ta163,
    Ta181,
    Ta180,
    Ta180m,
    Ta182,
    Ta182m,
    Ta182m1,
    Ta177,
    Ta176,
    Ta179,
    Ta178,
    Ta178m,
    Ta178m1,
    Ta173,
    Ta175,
    Ta174,
    Ta194,
    Ta193,
    Ta192,
    Ta191,
    Ta188,
    Ta188m,
    Ta187,
    Ta187m,
    Ta187m1,
    Ta190,
    Ta189,
    Ta184,
    Ta183,
    Ta186,
    Ta186m,
    Ta186m1,
    Ta185,
    W191,
    W192,
    W193,
    W187,
    W188,
    W189,
    W190,
    W184,
    W185,
    W185m,
    W186,
    W194,
    W195,
    W196,
    W197,
    W180,
    W181,
    W182,
    W183,
    W183m,
    W176,
    W177,
    W178,
    W179,
    W179m,
    W174,
    W175,
    W163,
    W162,
    W161,
    W160,
    W159,
    W158,
    W157,
    W173,
    W172,
    W171,
    W170,
    W169,
    W168,
    W167,
    W166,
    W165,
    W164,
    Re193,
    Re194,
    Re194m,
    Re194m1,
    Re191,
    Re192,
    Re185,
    Re186,
    Re186m,
    Re189,
    Re190,
    Re190m,
    Re187,
    Re188,
    Re188m,
    Re196,
    Re197,
    Re195,
    Re198,
    Re199,
    Re182,
    Re182m,
    Re183,
    Re180,
    Re181,
    Re184,
    Re184m,
    Re175,
    Re178,
    Re179,
    Re176,
    Re177,
    Re164,
    Re164m,
    Re163,
    Re163m,
    Re162,
    Re162m,
    Re161,
    Re161m,
    Re160,
    Re159,
    Re159m,
    Re174,
    Re173,
    Re172,
    Re172m,
    Re171,
    Re170,
    Re170m,
    Re169,
    Re169m,
    Re168,
    Re167,
    Re167m,
    Re166,
    Re165,
    Re165m,
    Os166,
    Os167,
    Os168,
    Os169,
    Os170,
    Os171,
    Os172,
    Os173,
    Os174,
    Os175,
    Os161,
    Os162,
    Os163,
    Os164,
    Os165,
    Os202,
    Os203,
    Os196,
    Os197,
    Os198,
    Os199,
    Os200,
    Os201,
    Os191,
    Os191m,
    Os192,
    Os192m,
    Os193,
    Os194,
    Os195,
    Os195m,
    Os186,
    Os187,
    Os188,
    Os189,
    Os189m,
    Os190,
    Os190m,
    Os180,
    Os181,
    Os181m,
    Os182,
    Os183,
    Os183m,
    Os184,
    Os185,
    Os176,
    Os177,
    Os178,
    Os179,
    Ir200,
    Ir201,
    Ir198,
    Ir199,
    Ir197,
    Ir197m,
    Ir204,
    Ir205,
    Ir202,
    Ir203,
    Ir189,
    Ir190,
    Ir190m,
    Ir190m1,
    Ir187,
    Ir187m,
    Ir188,
    Ir195,
    Ir195m,
    Ir196,
    Ir196m,
    Ir193,
    Ir193m,
    Ir194,
    Ir194m,
    Ir191,
    Ir191m,
    Ir191m1,
    Ir192,
    Ir192m,
    Ir192m1,
    Ir178,
    Ir179,
    Ir177,
    Ir186,
    Ir186m,
    Ir184,
    Ir185,
    Ir182,
    Ir183,
    Ir180,
    Ir181,
    Ir167,
    Ir167m,
    Ir168,
    Ir168m,
    Ir169,
    Ir169m,
    Ir170,
    Ir170m,
    Ir171,
    Ir171m,
    Ir172,
    Ir172m,
    Ir173,
    Ir173m,
    Ir174,
    Ir174m,
    Ir175,
    Ir175m,
    Ir176,
    Ir164,
    Ir165,
    Ir165m,
    Ir166,
    Ir166m,
    Pt208,
    Pt178,
    Pt179,
    Pt184,
    Pt185,
    Pt185m,
    Pt186,
    Pt187,
    Pt180,
    Pt181,
    Pt182,
    Pt183,
    Pt183m,
    Pt188,
    Pt189,
    Pt190,
    Pt195,
    Pt195m,
    Pt196,
    Pt197,
    Pt197m,
    Pt191,
    Pt192,
    Pt193,
    Pt193m,
    Pt194,
    Pt198,
    Pt199,
    Pt199m,
    Pt200,
    Pt201,
    Pt206,
    Pt207,
    Pt202,
    Pt203,
    Pt203m,
    Pt204,
    Pt205,
    Pt166,
    Pt165,
    Pt167,
    Pt169,
    Pt168,
    Pt171,
    Pt170,
    Pt173,
    Pt172,
    Pt175,
    Pt174,
    Pt177,
    Pt176,
    Au171,
    Au171m,
    Au170,
    Au170m,
    Au173,
    Au173m,
    Au172,
    Au172m,
    Au175,
    Au175m,
    Au174,
    Au174m,
    Au177,
    Au177m,
    Au176,
    Au176m,
    Au178,
    Au178m,
    Au188,
    Au179,
    Au182,
    Au183,
    Au180,
    Au181,
    Au186,
    Au187,
    Au187m,
    Au184,
    Au184m,
    Au185,
    Au185m,
    Au189,
    Au189m,
    Au190,
    Au190m,
    Au193,
    Au193m,
    Au194,
    Au194m,
    Au194m1,
    Au191,
    Au191m,
    Au192,
    Au192m,
    Au197,
    Au197m,
    Au198,
    Au198m,
    Au195,
    Au195m,
    Au196,
    Au196m,
    Au196m1,
    Au200,
    Au200m,
    Au201,
    Au199,
    Au204,
    Au205,
    Au205m,
    Au202,
    Au203,
    Au208,
    Au206,
    Au207,
    Au209,
    Au210,
    Hg170,
    Hg174,
    Hg173,
    Hg172,
    Hg171,
    Hg178,
    Hg177,
    Hg176,
    Hg175,
    Hg179,
    Hg183,
    Hg184,
    Hg185,
    Hg185m,
    Hg186,
    Hg187,
    Hg187m,
    Hg188,
    Hg189,
    Hg189m,
    Hg190,
    Hg191,
    Hg191m,
    Hg192,
    Hg193,
    Hg193m,
    Hg194,
    Hg195,
    Hg195m,
    Hg196,
    Hg197,
    Hg197m,
    Hg198,
    Hg199,
    Hg199m,
    Hg200,
    Hg201,
    Hg202,
    Hg203,
    Hg204,
    Hg180,
    Hg181,
    Hg182,
    Hg205,
    Hg206,
    Hg207,
    Hg208,
    Hg209,
    Hg210,
    Hg211,
    Hg212,
    Hg213,
    Hg214,
    Hg215,
    Hg216,
    Tl192,
    Tl192m,
    Tl193,
    Tl193m,
    Tl191,
    Tl191m,
    Tl189,
    Tl189m,
    Tl190,
    Tl190m,
    Tl187,
    Tl187m,
    Tl188,
    Tl188m,
    Tl185,
    Tl185m,
    Tl186,
    Tl186m,
    Tl186m1,
    Tl183,
    Tl184,
    Tl184m,
    Tl184m1,
    Tl203,
    Tl204,
    Tl201,
    Tl202,
    Tl200,
    Tl198,
    Tl198m,
    Tl199,
    Tl196,
    Tl196m,
    Tl197,
    Tl197m,
    Tl194,
    Tl194m,
    Tl195,
    Tl195m,
    Tl181,
    Tl182,
    Tl182m,
    Tl214,
    Tl215,
    Tl212,
    Tl213,
    Tl211,
    Tl209,
    Tl210,
    Tl207,
    Tl207m,
    Tl208,
    Tl205,
    Tl206,
    Tl206m,
    Tl216,
    Tl217,
    Tl176,
    Tl177,
    Tl178,
    Tl179,
    Tl180,
    Pb178,
    Pb179,
    Pb180,
    Pb181,
    Pb198,
    Pb199,
    Pb199m,
    Pb200,
    Pb201,
    Pb201m,
    Pb194,
    Pb195,
    Pb195m,
    Pb196,
    Pb197,
    Pb197m,
    Pb202,
    Pb202m,
    Pb203,
    Pb203m,
    Pb203m1,
    Pb204,
    Pb204m,
    Pb187,
    Pb187m,
    Pb188,
    Pb189,
    Pb189m,
    Pb190,
    Pb183,
    Pb183m,
    Pb184,
    Pb185,
    Pb185m,
    Pb186,
    Pb191,
    Pb191m,
    Pb192,
    Pb193,
    Pb193m,
    Pb182,
    Pb220,
    Pb216,
    Pb217,
    Pb218,
    Pb219,
    Pb209,
    Pb210,
    Pb211,
    Pb205,
    Pb206,
    Pb207,
    Pb207m,
    Pb208,
    Pb212,
    Pb213,
    Pb214,
    Pb215,
    Bi203,
    Bi203m,
    Bi204,
    Bi196,
    Bi196m,
    Bi196m1,
    Bi197,
    Bi197m,
    Bi194,
    Bi194m,
    Bi194m1,
    Bi195,
    Bi195m,
    Bi200,
    Bi200m,
    Bi200m1,
    Bi201,
    Bi201m,
    Bi198,
    Bi198m,
    Bi198m1,
    Bi199,
    Bi199m,
    Bi202,
    Bi193,
    Bi193m,
    Bi185,
    Bi186,
    Bi184,
    Bi189,
    Bi190,
    Bi190m,
    Bi187,
    Bi188,
    Bi188m,
    Bi191,
    Bi191m,
    Bi192,
    Bi192m,
    Bi223,
    Bi224,
    Bi218,
    Bi219,
    Bi216,
    Bi216m,
    Bi217,
    Bi222,
    Bi220,
    Bi221,
    Bi214,
    Bi214m,
    Bi215,
    Bi215m,
    Bi213,
    Bi207,
    Bi208,
    Bi205,
    Bi206,
    Bi211,
    Bi212,
    Bi212m,
    Bi212m1,
    Bi209,
    Bi210,
    Bi210m,
    Po205,
    Po206,
    Po207,
    Po207m,
    Po208,
    Po209,
    Po210,
    Po211,
    Po211m,
    Po212,
    Po212m,
    Po213,
    Po214,
    Po215,
    Po216,
    Po217,
    Po218,
    Po219,
    Po220,
    Po221,
    Po222,
    Po223,
    Po224,
    Po225,
    Po226,
    Po227,
    Po186,
    Po187,
    Po188,
    Po189,
    Po190,
    Po191,
    Po192,
    Po193,
    Po193m,
    Po194,
    Po195,
    Po195m,
    Po196,
    Po197,
    Po197m,
    Po198,
    Po199,
    Po199m,
    Po200,
    Po201,
    Po201m,
    Po202,
    Po203,
    Po203m,
    Po204,
    At193,
    At194,
    At194m,
    At191,
    At192,
    At192m,
    At204,
    At204m,
    At202,
    At202m,
    At202m1,
    At203,
    At200,
    At200m,
    At200m1,
    At201,
    At198,
    At198m,
    At199,
    At199m,
    At196,
    At197,
    At197m,
    At195,
    At195m,
    At213,
    At214,
    At211,
    At212,
    At212m,
    At209,
    At210,
    At207,
    At208,
    At205,
    At206,
    At215,
    At224,
    At222,
    At223,
    At220,
    At221,
    At218,
    At219,
    At216,
    At217,
    At225,
    At226,
    At229,
    At227,
    At228,
    Rn214,
    Rn213,
    Rn215,
    Rn210,
    Rn209,
    Rn212,
    Rn211,
    Rn206,
    Rn208,
    Rn207,
    Rn226,
    Rn225,
    Rn224,
    Rn221,
    Rn220,
    Rn223,
    Rn222,
    Rn217,
    Rn216,
    Rn219,
    Rn218,
    Rn231,
    Rn228,
    Rn227,
    Rn230,
    Rn229,
    Rn195,
    Rn195m,
    Rn194,
    Rn193,
    Rn203,
    Rn203m,
    Rn202,
    Rn205,
    Rn204,
    Rn199,
    Rn199m,
    Rn198,
    Rn201,
    Rn201m,
    Rn200,
    Rn197,
    Rn196,
    Fr226,
    Fr225,
    Fr224,
    Fr219,
    Fr218,
    Fr217,
    Fr223,
    Fr222,
    Fr221,
    Fr220,
    Fr216,
    Fr215,
    Fr214,
    Fr213,
    Fr208,
    Fr207,
    Fr212,
    Fr211,
    Fr210,
    Fr209,
    Fr230,
    Fr229,
    Fr228,
    Fr227,
    Fr233,
    Fr232,
    Fr231,
    Fr205,
    Fr204,
    Fr204m,
    Fr204m1,
    Fr203,
    Fr203m,
    Fr202,
    Fr202m,
    Fr206,
    Fr206m,
    Fr206m1,
    Fr197,
    Fr201,
    Fr201m,
    Fr200,
    Fr199,
    Fr198,
    Fr198m,
    Ra225,
    Ra224,
    Ra227,
    Ra226,
    Ra219,
    Ra218,
    Ra221,
    Ra220,
    Ra223,
    Ra222,
    Ra214,
    Ra213,
    Ra216,
    Ra215,
    Ra217,
    Ra208,
    Ra210,
    Ra209,
    Ra212,
    Ra211,
    Ra228,
    Ra230,
    Ra229,
    Ra232,
    Ra231,
    Ra234,
    Ra233,
    Ra203,
    Ra202,
    Ra205,
    Ra205m,
    Ra204,
    Ra207,
    Ra206,
    Ra201,
    Ra201m,
    Ac208,
    Ac207,
    Ac206,
    Ac206m,
    Ac205,
    Ac234,
    Ac233,
    Ac232,
    Ac231,
    Ac230,
    Ac229,
    Ac236,
    Ac235,
    Ac212,
    Ac211,
    Ac210,
    Ac209,
    Ac218,
    Ac217,
    Ac216,
    Ac215,
    Ac214,
    Ac213,
    Ac223,
    Ac222,
    Ac222m,
    Ac221,
    Ac220,
    Ac219,
    Ac228,
    Ac227,
    Ac226,
    Ac225,
    Ac224,
    Th238,
    Th235,
    Th234,
    Th237,
    Th236,
    Th231,
    Th230,
    Th233,
    Th232,
    Th228,
    Th227,
    Th229,
    Th224,
    Th223,
    Th226,
    Th225,
    Th220,
    Th222,
    Th221,
    Th217,
    Th216,
    Th219,
    Th218,
    Th213,
    Th212,
    Th215,
    Th214,
    Th211,
    Th210,
    Th209,
    Th208,
    Pa211,
    Pa215,
    Pa214,
    Pa213,
    Pa212,
    Pa219,
    Pa218,
    Pa217,
    Pa216,
    Pa220,
    Pa222,
    Pa221,
    Pa226,
    Pa225,
    Pa224,
    Pa223,
    Pa230,
    Pa229,
    Pa228,
    Pa227,
    Pa233,
    Pa232,
    Pa231,
    Pa237,
    Pa236,
    Pa235,
    Pa234,
    Pa234m,
    Pa239,
    Pa238,
    U215,
    U222,
    U224,
    U223,
    U226,
    U225,
    U217,
    U216,
    U219,
    U218,
    U221,
    U233,
    U232,
    U235,
    U235m,
    U234,
    U237,
    U236,
    U228,
    U227,
    U230,
    U229,
    U231,
    U242,
    U239,
    U238,
    U241,
    U240,
    Np222,
    Np220,
    Np219,
    Np226,
    Np225,
    Np224,
    Np223,
    Np242,
    Np242m,
    Np241,
    Np240,
    Np240m,
    Np239,
    Np238,
    Np244,
    Np243,
    Np232,
    Np231,
    Np230,
    Np229,
    Np228,
    Np227,
    Np237,
    Np236,
    Np236m,
    Np235,
    Np234,
    Np233,
    Pu246,
    Pu245,
    Pu247,
    Pu244,
    Pu244m,
    Pu243,
    Pu242,
    Pu239,
    Pu238,
    Pu241,
    Pu240,
    Pu235,
    Pu234,
    Pu237,
    Pu237m,
    Pu236,
    Pu232,
    Pu231,
    Pu233,
    Pu228,
    Pu230,
    Pu229,
    Am230,
    Am229,
    Am234,
    Am233,
    Am232,
    Am237,
    Am236,
    Am236m,
    Am235,
    Am241,
    Am240,
    Am239,
    Am238,
    Am244,
    Am244m,
    Am243,
    Am242,
    Am242m,
    Am247,
    Am246,
    Am246m,
    Am245,
    Am223,
    Cm237,
    Cm236,
    Cm234,
    Cm233,
    Cm235,
    Cm246,
    Cm246m,
    Cm248,
    Cm247,
    Cm239,
    Cm238,
    Cm241,
    Cm240,
    Cm243,
    Cm242,
    Cm245,
    Cm244,
    Cm250,
    Cm249,
    Cm251,
    Bk238,
    Bk239,
    Bk240,
    Bk241,
    Bk242,
    Bk243,
    Bk244,
    Bk245,
    Bk246,
    Bk247,
    Bk248,
    Bk248m,
    Bk233,
    Bk234,
    Bk236,
    Bk237,
    Bk249,
    Bk250,
    Bk251,
    Bk252,
    Bk253,
    Cf246,
    Cf247,
    Cf244,
    Cf245,
    Cf242,
    Cf243,
    Cf240,
    Cf241,
    Cf238,
    Cf239,
    Cf248,
    Cf237,
    Cf255,
    Cf256,
    Cf253,
    Cf254,
    Cf251,
    Cf252,
    Cf249,
    Cf250,
    Es246,
    Es247,
    Es248,
    Es242,
    Es243,
    Es244,
    Es245,
    Es240,
    Es241,
    Es257,
    Es253,
    Es254,
    Es254m,
    Es255,
    Es256,
    Es256m,
    Es249,
    Es250,
    Es250m,
    Es251,
    Es252,
    Fm241,
    Fm245,
    Fm244,
    Fm243,
    Fm242,
    Fm249,
    Fm248,
    Fm247,
    Fm247m,
    Fm246,
    Fm252,
    Fm251,
    Fm250,
    Fm250m,
    Fm256,
    Fm255,
    Fm254,
    Fm253,
    Fm259,
    Fm258,
    Fm257,
    Md252,
    Md251,
    Md251m,
    Md254,
    Md254m,
    Md253,
    Md256,
    Md255,
    Md258,
    Md258m,
    Md257,
    Md260,
    Md259,
    Md245,
    Md244,
    Md247,
    Md247m,
    Md246,
    Md246m,
    Md249,
    Md249m,
    Md248,
    Md250,
    Md250m,
    No260,
    No259,
    No258,
    No257,
    No256,
    No255,
    No254,
    No254m,
    No253,
    No252,
    No252m,
    No262,
    No251,
    No251m,
    No250,
    No249,
    Lr262,
    Lr261,
    Lr258,
    Lr257,
    Lr257m,
    Lr260,
    Lr259,
    Lr254,
    Lr254m,
    Lr253,
    Lr253m,
    Lr256,
    Lr255,
    Lr255m,
    Lr264,
    Lr266,
    Lr251,
    Lr251m,
    Lr252,
    Rf267,
    Rf265,
    Rf260,
    Rf259,
    Rf258,
    Rf257,
    Rf257m,
    Rf263,
    Rf262,
    Rf261,
    Rf261m,
    Rf256,
    Rf255,
    Rf254,
    Rf253,
    Db268,
    Db270,
    Db267,
    Db266,
    Db258,
    Db258m,
    Db257,
    Db257m,
    Db260,
    Db259,
    Db262,
    Db261,
    Db263,
    Db256,
    Db255,
    Db255m,
    Sg264,
    Sg263,
    Sg263m,
    Sg262,
    Sg261,
    Sg260,
    Sg259,
    Sg259m,
    Sg258,
    Sg265,
    Sg265m,
    Sg267,
    Sg266,
    Sg271,
    Sg269,
    Bh278,
    Bh262,
    Bh262m,
    Bh261,
    Bh264,
    Bh260,
    Bh267,
    Bh272,
    Bh274,
    Bh271,
    Bh270,
    Bh266,
    Bh265,
    Hs267,
    Hs267m,
    Hs266,
    Hs266m,
    Hs265,
    Hs271,
    Hs270,
    Hs269,
    Hs268,
    Hs275,
    Hs273,
    Hs264,
    Hs263,
    Hs277,
    Mt277,
    Mt276,
    Mt276m,
    Mt278,
    Mt270,
    Mt275,
    Mt274,
    Mt266,
    Mt268,
    Ds267,
    Ds269,
    Ds281,
    Ds280,
    Ds282,
    Ds270,
    Ds277,
    Ds273,
    Ds271,
    Ds271m,
    Ds279,
    Ds279m,
    Rg286,
    Rg282,
    Rg281,
    Rg278,
    Rg274,
    Rg272,
    Rg279,
    Rg280,
    Cn277,
    Cn281,
    Cn286,
    Cn282,
    Cn283,
    Cn284,
    Cn285,
    Nh278,
    Nh282,
    Nh284,
    Nh285,
    Nh283,
    Nh286,
    Nh290,
    Fl284,
    Fl285,
    Fl286,
    Fl287,
    Fl288,
    Fl289,
    Fl290,
    Mc290,
    Mc288,
    Mc289,
    Mc287,
    Lv290,
    Lv291,
    Lv292,
    Lv293,
    Ts293,
    Ts294,
    Og294,
    Ru103m,
    Na24m,
    Na36,
    K32,
    K33,
    K34,
    Rb71,
    Cs125m,
    Cs144m,
    Fr214m,
    Fr218m,
    Be5,
    Mg39,
    Ba130m,
    Ra203m,
    Ra207m,
    Ra213m,
    Ca34,
    Xe132m,
    Rn197m,
    Br67,
    At196m,
    O27,
    Po191m,
    Po205m1,
    Po205m,
    As60,
    As61,
    As62,
    Sb103,
    Bi184m,
    Bi186m,
    Bi187m,
    Bi189m,
    Bi204m1,
    Bi204m,
    Bi208m,
    P24,
    N25,
    Zn61m1,
    Zn61m,
    Zn73m1,
    Zn73m,
    Cu52,
    Cu76m,
    Co49,
    V40,
    V41,
    Mn45,
    V46m,
    Ti38,
    Sc36,
    Sc37,
    Sc38,
    Y88m,
    Y88m1,
    Nb90m1,
    Tc86m,
    Tc117m,
    Pd117m,
    Ag95m,
    Ag95m1,
    Ag95m2,
    Ag114m,
    Ta157m,
    Ta157m1,
    Ta158m,
    Ta176m,
    Ta176m1,
    Ta179m,
    Ta179m1,
    Ta185m,
    W180m,
    W186m,
    W190m,
    Re183m,
    Ir164m,
    Ir188m,
    Ir189m,
    Ir189m1,
    Ir194m1,
    Pt184m,
    Au169,
    Au192m1,
    Hg205m,
    La117m,
    La118,
    La119,
    Ce119,
    Ce120,
    Ce132m,
    Pr122,
    Pr123,
    Nd124,
    Pm126,
    Pm127,
    Pm138m,
    Pm142m,
    Sm128,
    Sm143m1,
    Sm153m,
    Eu133,
    Eu136m1,
    Gd155m,
    Tb136,
    Tb137,
    Tb141m,
    Tb145m,
    Tb146m1,
    Dy138,
    Dy157m,
    Ho148m1,
    Ho155m,
    Er157m,
    Yb148,
    Yb171m,
    Yb175m,
    Lu153m,
    Lu155m1,
    Lu161m,
    Lu177m1,
    Lu179m,
    Lu180m,
    B6,
    Ga56,
    Ga57,
    Ga58,
    In114m1,
    Tl179m,
    Tl181m,
    Tl183m,
    Tl188m1,
    Tl198m1,
    Tl199m,
    Tl200m,
    Tl201m,
    Ac208m,
    Ac216m,
    Pa217m,
    Pa240,
    U220,
    Am231,
    Am242m1,
    Am248,
    Am249,
    Cm244m,
    Bk235,
    Bk254,
    Es247m,
    Es258,
    Fm260,
    Md245m,
    Md261,
    No261,
    Lr263,
    C21,
    Ge58,
    Pb181m,
    Pb205m,
    Rf264,
    Db264,
    Db265,
    Bh263,
    Bh269,
    Hs265m,
    Mt265,
    Mt266m,
    Mt267,
    Mt269,
    Mt271,
    Mt273,
    Ds268,
    Ds270m,
    Ds272,
}

import the nuclide enum Provides an enum of all nuclides within the library

Variants

Ti66

V68

V69

Cr71

Cr72

Mn74

Fe77

Co79

Cu84

Zn86

Zn87

Ga72m

Ga88

Ga89

Ge71m

Ge91

Ge92

As74m

As75m

As84m

As93

As94

Se85m

Se96

Se97

Br86m

Br99

Br100

Kr102

Kr103

Kr104

Rb105

Rb106

Sr108

Sr109

Y110

Y111

Zr114

Ru109m

Rh109m

Ag133

Cd135

Cd136

In138

Sn141

Sb115m

Sb143

Te146

I148

Xe143m

Xe151

Cs153

Cs154

Ba155

Ba156

La158

La159

Ce159

Ce160

Ce161

Pr162

Pr163

Pr164

Nd164

Nd165

Nd166

Nd167

Pm166

Pm167

Pm168

Pm169

Sm169

Sm170

Sm171

Sm172

Eu171

Eu172

Gd153m

Neutron

H1

H2

H3

H4

H5

H6

H7

He3

He4

He5

He6

He7

He8

He9

He10

Li4

Li5

Li6

Li7

Li8

Li9

Li10

Li11

Li12

Li13

Be6

Be7

Be8

Be9

Be10

Be11

Be12

Be13

Be15

Be16

Be14

B17

B18

B19

B20

B21

B15

B16

B7

B8

B9

B10

B11

B12

B13

B14

C8

C9

C10

C11

C12

C13

C14

C15

C20

C19

C22

C16

C18

C17

N22

N21

N24

N23

N18

N17

N20

N19

N10

N11

N12

N13

N14

N15

N16

O25

O26

O23

O24

O18

O21

O22

O19

O20

O28

O11

O12

O13

O14

O15

O16

O17

F27

F28

F25

F26

F26m

F19

F20

F23

F24

F21

F22

F30

F31

F29

F14

F15

F16

F17

F18

Ne20

Ne21

Ne22

Ne23

Ne24

Ne25

Ne26

Ne27

Ne28

Ne29

Ne30

Ne31

Ne32

Ne33

Ne34

Ne19

Ne17

Ne18

Ne15

Ne16

Na20

Na19

Na18

Na17

Na32

Na31

Na34

Na33

Na35

Na37

Na21

Na23

Na22

Na25

Na24

Na27

Na26

Na29

Na28

Na30

Mg23

Mg22

Mg25

Mg24

Mg27

Mg26

Mg29

Mg28

Mg31

Mg30

Mg32

Mg34

Mg33

Mg36

Mg35

Mg38

Mg37

Mg40

Mg21

Mg20

Mg19

Mg18

Al22

Al21

Al35

Al36

Al33

Al34

Al34m

Al39

Al40

Al37

Al38

Al41

Al42

Al43

Al24

Al24m

Al25

Al23

Al28

Al29

Al26

Al26m

Al27

Al32

Al30

Al31

Si44

Si26

Si27

Si24

Si25

Si30

Si31

Si28

Si29

Si32

Si33

Si37

Si38

Si35

Si36

Si41

Si42

Si39

Si40

Si34

Si43

Si23

Si22

P40

P39

P38

P37

P44

P43

P42

P41

P36

P35

P47

P46

P45

P29

P28

P27

P26

P33

P32

P31

P30

P25

P34

S49

S48

S47

S46

S31

S30

S29

S28

S35

S34

S33

S32

S27

S26

S42

S41

S40

S39

S45

S44

S43

S38

S37

S36

Cl45

Cl46

Cl41

Cl42

Cl43

Cl44

Cl37

Cl38

Cl38m

Cl39

Cl40

Cl52

Cl48

Cl49

Cl50

Cl51

Cl47

Cl34

Cl34m

Cl35

Cl36

Cl30

Cl31

Cl32

Cl33

Cl28

Cl29

Ar54

Ar50

Ar51

Ar52

Ar53

Ar48

Ar49

Ar36

Ar37

Ar32

Ar33

Ar34

Ar35

Ar29

Ar30

Ar31

Ar47

Ar43

Ar44

Ar45

Ar46

Ar39

Ar40

Ar41

Ar42

Ar38

K59

K46

K45

K48

K47

K42

K41

K44

K43

K40

K39

K57

K56

K53

K52

K55

K54

K49

K51

K50

K38

K38m

K35

K37

K36

K31

Ca59

Ca58

Ca57

Ca56

Ca55

Ca54

Ca53

Ca52

Ca51

Ca50

Ca60

Ca39

Ca38

Ca37

Ca36

Ca35

Ca49

Ca48

Ca47

Ca46

Ca45

Ca44

Ca43

Ca42

Ca41

Ca40

Sc50

Sc50m

Sc49

Sc48

Sc47

Sc46

Sc46m

Sc45

Sc45m

Sc44

Sc44m

Sc43

Sc42

Sc42m

Sc41

Sc60

Sc59

Sc58

Sc57

Sc56

Sc55

Sc54

Sc53

Sc52

Sc51

Sc40

Sc39

Sc62

Sc61

Ti61

Ti60

Ti59

Ti58

Ti57

Ti56

Ti55

Ti54

Ti53

Ti52

Ti64

Ti63

Ti62

Ti41

Ti40

Ti39

Ti51

Ti50

Ti49

Ti48

Ti47

Ti46

Ti45

Ti44

Ti43

Ti42

V64

V65

V66

V67

V63

V50

V51

V52

V43

V44

V44m

V45

V46

V47

V48

V49

V61

V62

V53

V54

V55

V56

V57

V58

V59

V60

V60m

V42

Cr63

Cr55

Cr56

Cr57

Cr58

Cr59

Cr60

Cr61

Cr62

Cr54

Cr66

Cr67

Cr68

Cr69

Cr70

Cr64

Cr65

Cr42

Cr43

Cr52

Cr53

Cr44

Cr45

Cr46

Cr47

Cr48

Cr49

Cr50

Cr51

Mn69

Mn68

Mn71

Mn70

Mn73

Mn72

Mn65

Mn67

Mn66

Mn54

Mn47

Mn46

Mn49

Mn48

Mn51

Mn50

Mn50m

Mn53

Mn52

Mn52m

Mn58

Mn58m

Mn57

Mn60

Mn60m

Mn59

Mn62

Mn62m

Mn61

Mn64

Mn63

Mn56

Mn55

Mn44

Fe60

Fe59

Fe62

Fe61

Fe64

Fe63

Fe65

Fe65m

Fe56

Fe58

Fe57

Fe71

Fe70

Fe73

Fe72

Fe75

Fe74

Fe67

Fe66

Fe69

Fe68

Fe45

Fe49

Fe48

Fe51

Fe50

Fe53

Fe53m

Fe52

Fe52m

Fe55

Fe54

Fe47

Fe46

Fe76

Co74

Co75

Co72

Co72m

Co72m1

Co73

Co76

Co76m

Co67

Co67m

Co70

Co70m

Co71

Co68

Co68m

Co69

Co69m

Co77

Co78

Co52

Co52m

Co53

Co53m

Co50

Co51

Co56

Co54

Co54m

Co55

Co63

Co64

Co64m

Co61

Co62

Co62m

Co65

Co66

Co59

Co60

Co60m

Co57

Co58

Co58m

Ni79

Ni80

Ni78

Ni81

Ni82

Ni65

Ni66

Ni63

Ni64

Ni67

Ni58

Ni61

Ni62

Ni59

Ni60

Ni76

Ni77

Ni74

Ni75

Ni68

Ni69

Ni69m

Ni72

Ni73

Ni70

Ni71

Ni71m

Ni54

Ni55

Ni52

Ni53

Ni56

Ni57

Ni50

Ni51

Ni48

Ni49

Cu57

Cu56

Cu55

Cu54

Cu58

Cu53

Cu68

Cu68m

Cu67

Cu66

Cu65

Cu60

Cu59

Cu64

Cu63

Cu62

Cu61

Cu78

Cu77

Cu76

Cu71

Cu70

Cu70m

Cu70m1

Cu69

Cu75

Cu74

Cu73

Cu72

Cu82

Cu81

Cu80

Cu79

Cu83

Zn58

Zn57

Zn59

Zn54

Zn56

Zn55

Zn83

Zn82

Zn85

Zn84

Zn81

Zn80

Zn72

Zn71

Zn71m

Zn74

Zn73

Zn70

Zn79

Zn79m

Zn76

Zn75

Zn78

Zn77

Zn77m

Zn61

Zn60

Zn63

Zn62

Zn69

Zn69m

Zn68

Zn65

Zn64

Zn67

Zn66

Ga85

Ga84

Ga87

Ga86

Ga81

Ga83

Ga82

Ga74

Ga74m

Ga73

Ga76

Ga75

Ga72

Ga71

Ga78

Ga77

Ga80

Ga80m

Ga79

Ga63

Ga62

Ga65

Ga64

Ga61

Ga70

Ga67

Ga66

Ga69

Ga68

Ga60

Ga59

Ge77

Ge77m

Ge78

Ge75

Ge75m

Ge76

Ge73

Ge73m

Ge74

Ge72

Ge81

Ge81m

Ge79

Ge79m

Ge80

Ge66

Ge67

Ge64

Ge65

Ge62

Ge63

Ge70

Ge71

Ge68

Ge69

Ge61

Ge59

Ge60

Ge88

Ge89

Ge86

Ge87

Ge84

Ge85

Ge82

Ge83

Ge90

As83

As90

As91

As88

As89

As86

As87

As84

As85

As92

As79

As80

As77

As78

As75

As76

As73

As74

As81

As82

As82m

As68

As69

As66

As67

As64

As65

As63

As72

As70

As71

Se95

Se94

Se84

Se85

Se92

Se93

Se90

Se91

Se88

Se89

Se86

Se87

Se74

Se81

Se81m

Se82

Se79

Se79m

Se80

Se77

Se77m

Se78

Se75

Se76

Se83

Se83m

Se70

Se71

Se68

Se69

Se66

Se67

Se64

Se65

Se72

Se73

Se73m

Se63

Br98

Br97

Br96

Br95

Br87

Br86

Br85

Br94

Br93

Br92

Br91

Br90

Br89

Br88

Br76

Br76m

Br75

Br84

Br84m

Br83

Br82

Br82m

Br81

Br80

Br80m

Br79

Br79m

Br78

Br77

Br77m

Br73

Br72

Br72m

Br71

Br70

Br70m

Br69

Br68

Br74

Br74m

Kr100

Kr99

Kr98

Kr97

Kr96

Kr101

Kr89

Kr88

Kr87

Kr86

Kr95

Kr94

Kr93

Kr92

Kr91

Kr90

Kr78

Kr77

Kr76

Kr85

Kr85m

Kr84

Kr83

Kr83m

Kr82

Kr81

Kr81m

Kr80

Kr79

Kr79m

Kr67

Kr75

Kr74

Kr73

Kr72

Kr71

Kr70

Kr69

Kr68

Rb92

Rb93

Rb94

Rb95

Rb96

Rb87

Rb88

Rb89

Rb90

Rb90m

Rb91

Rb81

Rb81m

Rb82

Rb82m

Rb83

Rb84

Rb84m

Rb85

Rb86

Rb86m

Rb77

Rb78

Rb78m

Rb79

Rb80

Rb72

Rb73

Rb74

Rb75

Rb76

Rb103

Rb104

Rb97

Rb98

Rb98m

Rb99

Rb100

Rb101

Rb102

Sr105

Sr106

Sr107

Sr98

Sr99

Sr100

Sr101

Sr102

Sr103

Sr104

Sr94

Sr95

Sr96

Sr97

Sr88

Sr89

Sr90

Sr91

Sr92

Sr93

Sr83

Sr83m

Sr84

Sr85

Sr85m

Sr86

Sr87

Sr87m

Sr78

Sr79

Sr80

Sr81

Sr82

Sr73

Sr74

Sr75

Sr76

Sr77

Y108

Y107

Y100

Y100m

Y99

Y102

Y102m

Y101

Y104

Y103

Y106

Y105

Y109

Y97

Y97m

Y97m1

Y96

Y96m

Y98

Y98m

Y89

Y89m

Y91

Y91m

Y90

Y90m

Y93

Y93m

Y92

Y95

Y94

Y86

Y86m

Y85

Y85m

Y88

Y87

Y87m

Y80

Y80m

Y79

Y82

Y81

Y84

Y84m

Y83

Y83m

Y77

Y76

Y78

Y78m

Zr109

Zr108

Zr107

Zr106

Zr101

Zr100

Zr105

Zr104

Zr103

Zr102

Zr98

Zr97

Zr96

Zr95

Zr99

Zr90

Zr90m

Zr94

Zr93

Zr92

Zr91

Zr87

Zr87m

Zr86

Zr85

Zr85m

Zr84

Zr89

Zr89m

Zr88

Zr83

Zr82

Zr81

Zr80

Zr79

Zr78

Zr77

Zr112

Zr111

Zr110

Zr113

Nb114

Nb113

Nb112

Nb111

Nb116

Nb115

Nb110

Nb110m

Nb109

Nb108

Nb103

Nb102

Nb102m

Nb101

Nb107

Nb106

Nb105

Nb104

Nb104m

Nb100

Nb100m

Nb99

Nb99m

Nb98

Nb98m

Nb97

Nb97m

Nb92

Nb92m

Nb91

Nb91m

Nb96

Nb95

Nb95m

Nb94

Nb94m

Nb93

Nb93m

Nb89

Nb89m

Nb88

Nb88m

Nb87

Nb87m

Nb86

Nb90

Nb90m

Nb81

Nb85

Nb85m

Nb84

Nb83

Nb82

Mo112

Mo117

Mo118

Mo119

Mo113

Mo114

Mo115

Mo116

Mo110

Mo111

Mo111m

Mo106

Mo107

Mo108

Mo109

Mo102

Mo103

Mo104

Mo105

Mo99

Mo100

Mo101

Mo95

Mo96

Mo97

Mo98

Mo92

Mo93

Mo93m

Mo94

Mo88

Mo89

Mo89m

Mo90

Mo91

Mo91m

Mo84

Mo85

Mo86

Mo87

Mo87m

Mo82

Mo83

Mo81

Tc101

Tc102

Tc102m

Tc97

Tc97m

Tc98

Tc99

Tc99m

Tc100

Tc93

Tc93m

Tc94

Tc94m

Tc95

Tc95m

Tc96

Tc96m

Tc90

Tc90m

Tc91

Tc91m

Tc92

Tc86

Tc87

Tc88

Tc88m

Tc89

Tc89m

Tc85

Tc113

Tc114

Tc114m

Tc119

Tc120

Tc121

Tc122

Tc115

Tc116

Tc117

Tc118

Tc112

Tc103

Tc108

Tc109

Tc110

Tc111

Tc104

Tc105

Tc106

Tc107

Ru125

Ru124

Ru114

Ru116

Ru115

Ru122

Ru121

Ru123

Ru118

Ru117

Ru120

Ru119

Ru105

Ru104

Ru111

Ru110

Ru113

Ru113m

Ru112

Ru107

Ru106

Ru109

Ru108

Ru103

Ru94

Ru100

Ru99

Ru102

Ru101

Ru96

Ru95

Ru98

Ru97

Ru93

Ru93m

Ru92

Ru89

Ru88

Ru91

Ru91m

Ru90

Ru85

Ru87

Ru86

Rh127

Rh126

Rh128

Rh125

Rh116

Rh116m

Rh115

Rh118

Rh118m

Rh117

Rh124

Rh123

Rh120

Rh119

Rh122

Rh121

Rh105

Rh105m

Rh107

Rh106

Rh106m

Rh113

Rh112

Rh112m

Rh114

Rh114m

Rh109

Rh108

Rh108m

Rh111

Rh110

Rh110m

Rh96

Rh96m

Rh95

Rh95m

Rh102

Rh102m

Rh101

Rh101m

Rh104

Rh104m

Rh103

Rh103m

Rh98

Rh98m

Rh97

Rh97m

Rh100

Rh100m

Rh99

Rh99m

Rh94

Rh94m

Rh91

Rh91m

Rh90

Rh90m

Rh93

Rh93m

Rh92

Rh92m

Rh89

Pd129

Pd128

Pd131

Pd130

Pd127

Pd126

Pd126m

Pd118

Pd117

Pd120

Pd119

Pd119m

Pd116

Pd125

Pd122

Pd121

Pd124

Pd123

Pd123m

Pd107

Pd107m

Pd106

Pd109

Pd109m

Pd108

Pd115

Pd115m

Pd114

Pd111

Pd111m

Pd110

Pd113

Pd113m

Pd112

Pd96

Pd98

Pd97

Pd104

Pd103

Pd105

Pd100

Pd99

Pd102

Pd101

Pd93

Pd92

Pd95

Pd95m

Pd95m1

Pd94

Pd91

Pd90

Ag132

Ag130

Ag131

Ag128

Ag129

Ag129m

Ag127

Ag127m

Ag121

Ag122

Ag122m

Ag119

Ag119m

Ag120

Ag120m

Ag120m1

Ag117

Ag117m

Ag118

Ag118m

Ag125

Ag125m

Ag126

Ag126m

Ag123

Ag124

Ag124m

Ag110

Ag110m

Ag111

Ag111m

Ag108

Ag108m

Ag109

Ag109m

Ag107

Ag107m

Ag116

Ag116m

Ag116m1

Ag114

Ag115

Ag115m

Ag112

Ag113

Ag113m

Ag99

Ag99m

Ag100

Ag100m

Ag97

Ag98

Ag105

Ag105m

Ag106

Ag106m

Ag103

Ag103m

Ag104

Ag104m

Ag101

Ag101m

Ag102

Ag102m

Ag96

Ag96m

Ag94

Ag94m

Ag94m1

Ag95

Ag92

Ag93

Cd112

Cd113

Cd113m

Cd110

Cd111

Cd111m

Cd108

Cd109

Cd116

Cd117

Cd117m

Cd114

Cd115

Cd115m

Cd101

Cd102

Cd99

Cd100

Cd98

Cd107

Cd105

Cd106

Cd103

Cd104

Cd96

Cd96m

Cd97

Cd97m

Cd97m1

Cd94

Cd95

Cd134

Cd132

Cd133

Cd130

Cd131

Cd128

Cd129

Cd129m

Cd123

Cd123m

Cd124

Cd121

Cd121m

Cd122

Cd119

Cd119m

Cd120

Cd118

Cd127

Cd127m

Cd125

Cd125m

Cd126

In137

In136

In135

In134

In133

In133m

In132

In131

In131m

In131m1

In130

In130m

In130m1

In129

In129m

In129m1

In129m2

In126

In126m

In125

In125m

In124

In124m

In123

In123m

In122

In122m

In122m1

In121

In121m

In120

In120m

In120m1

In119

In119m

In128

In128m

In128m1

In127

In127m

In127m1

In115

In115m

In114

In114m

In113

In113m

In112

In112m

In111

In111m

In110

In110m

In109

In109m

In109m1

In118

In118m

In118m1

In117

In117m

In116

In116m

In116m1

In104

In104m

In103

In103m

In102

In101

In101m

In100

In99

In108

In108m

In107

In107m

In106

In106m

In105

In105m

In98

In98m

In97

In96

Sn99

Sn101

Sn100

Sn103

Sn102

Sn105

Sn104

Sn107

Sn106

Sn109

Sn108

Sn110

Sn112

Sn111

Sn114

Sn113

Sn113m

Sn116

Sn115

Sn118

Sn117

Sn117m

Sn119

Sn119m

Sn121

Sn121m

Sn120

Sn123

Sn123m

Sn122

Sn125

Sn125m

Sn124

Sn127

Sn127m

Sn126

Sn129

Sn129m

Sn128

Sn128m

Sn130

Sn130m

Sn132

Sn131

Sn131m

Sn134

Sn133

Sn136

Sn135

Sn138

Sn137

Sn139

Sn140

Sb105

Sb104

Sb107

Sb106

Sb109

Sb108

Sb110

Sb112

Sb111

Sb114

Sb113

Sb116

Sb116m

Sb115

Sb118

Sb118m

Sb117

Sb120

Sb120m

Sb119

Sb119m

Sb121

Sb123

Sb122

Sb122m

Sb125

Sb124

Sb124m

Sb124m1

Sb127

Sb126

Sb126m

Sb126m1

Sb129

Sb129m

Sb128

Sb128m

Sb130

Sb130m

Sb132

Sb132m

Sb131

Sb134

Sb134m

Sb133

Sb136

Sb135

Sb138

Sb137

Sb140

Sb139

Sb141

Sb142

Te106

Te107

Te104

Te105

Te110

Te111

Te108

Te109

Te113

Te114

Te112

Te117

Te117m

Te118

Te115

Te115m

Te116

Te121

Te121m

Te119

Te119m

Te120

Te124

Te125

Te125m

Te122

Te123

Te123m

Te128

Te129

Te129m

Te126

Te127

Te127m

Te130

Te131

Te131m

Te131m1

Te132

Te135

Te136

Te133

Te133m

Te134

Te139

Te140

Te137

Te138

Te141

Te142

Te143

Te144

Te145

I108

I109

I112

I110

I111

I115

I116

I113

I114

I114m

I119

I120

I120m

I117

I118

I118m

I121

I122

I123

I126

I127

I124

I125

I130

I130m

I131

I128

I129

I132

I132m

I133

I133m

I134

I134m

I137

I138

I135

I136

I136m

I141

I142

I139

I140

I140m

I140m1

I144

I145

I143

I146

I147

Xe125

Xe125m

Xe124

Xe129

Xe129m

Xe128

Xe127

Xe127m

Xe126

Xe133

Xe133m

Xe132

Xe131

Xe131m

Xe130

Xe136

Xe135

Xe135m

Xe134

Xe134m

Xe140

Xe139

Xe138

Xe137

Xe143

Xe142

Xe141

Xe147

Xe146

Xe145

Xe144

Xe150

Xe149

Xe148

Xe111

Xe110

Xe109

Xe108

Xe113

Xe112

Xe114

Xe118

Xe117

Xe116

Xe115

Xe122

Xe121

Xe120

Xe119

Xe123

Cs113

Cs112

Cs114

Cs116

Cs116m

Cs115

Cs120

Cs120m

Cs119

Cs119m

Cs118

Cs118m

Cs117

Cs117m

Cs124

Cs124m

Cs123

Cs123m

Cs122

Cs122m

Cs122m1

Cs121

Cs121m

Cs127

Cs126

Cs125

Cs131

Cs130

Cs130m

Cs129

Cs128

Cs134

Cs134m

Cs133

Cs132

Cs138

Cs138m

Cs137

Cs136

Cs136m

Cs135

Cs135m

Cs142

Cs141

Cs140

Cs139

Cs144

Cs143

Cs145

Cs149

Cs148

Cs147

Cs146

Cs152

Cs151

Cs150

Ba148

Ba149

Ba150

Ba151

Ba146

Ba147

Ba152

Ba153

Ba154

Ba114

Ba115

Ba116

Ba117

Ba118

Ba123

Ba124

Ba125

Ba119

Ba120

Ba121

Ba122

Ba126

Ba127

Ba127m

Ba128

Ba129

Ba129m

Ba134

Ba135

Ba135m

Ba130

Ba131

Ba131m

Ba132

Ba133

Ba133m

Ba137

Ba137m

Ba138

Ba139

Ba140

Ba136

Ba136m

Ba145

Ba141

Ba142

Ba143

Ba144

La117

La120

La125

La125m

La126

La126m

La121

La122

La123

La124

La124m

La128

La128m

La129

La129m

La130

La131

La127

La127m

La136

La136m

La132

La132m

La133

La134

La135

La139

La140

La141

La142

La137

La138

La143

La144

La145

La146

La146m

La150

La151

La152

La153

La147

La148

La149

La154

La155

La156

La157

Ce158

Ce121

Ce122

Ce127

Ce127m

Ce123

Ce124

Ce125

Ce125m

Ce126

Ce130

Ce131

Ce131m

Ce132

Ce133

Ce133m

Ce128

Ce129

Ce134

Ce135

Ce135m

Ce136

Ce137

Ce137m

Ce141

Ce142

Ce143

Ce144

Ce138

Ce138m

Ce139

Ce139m

Ce140

Ce145

Ce146

Ce147

Ce152

Ce153

Ce154

Ce155

Ce148

Ce149

Ce150

Ce151

Ce156

Ce157

Pr159

Pr160

Pr161

Pr144

Pr144m

Pr143

Pr146

Pr145

Pr140

Pr139

Pr142

Pr142m

Pr141

Pr148

Pr148m

Pr147

Pr149

Pr155

Pr154

Pr157

Pr156

Pr151

Pr150

Pr153

Pr152

Pr158

Pr121

Pr124

Pr126

Pr125

Pr128

Pr127

Pr133

Pr133m

Pr132

Pr135

Pr134

Pr134m

Pr129

Pr131

Pr131m

Pr130

Pr130m

Pr137

Pr136

Pr138

Pr138m

Nd163

Nd161

Nd162

Nd160

Nd134

Nd133

Nd133m

Nd132

Nd131

Nd130

Nd139

Nd139m

Nd138

Nd137

Nd137m

Nd136

Nd135

Nd135m

Nd145

Nd144

Nd143

Nd142

Nd141

Nd141m

Nd140

Nd149

Nd148

Nd147

Nd146

Nd156

Nd155

Nd154

Nd153

Nd152

Nd151

Nd150

Nd159

Nd158

Nd157

Nd129

Nd129m

Nd128

Nd127

Nd126

Nd125

Pm130

Pm129

Pm128

Pm136

Pm136m

Pm135

Pm135m

Pm134

Pm134m

Pm133

Pm133m

Pm132

Pm131

Pm140

Pm140m

Pm139

Pm139m

Pm138

Pm137

Pm137m

Pm147

Pm146

Pm145

Pm144

Pm143

Pm142

Pm141

Pm150

Pm149

Pm148

Pm148m

Pm158

Pm157

Pm156

Pm156m

Pm155

Pm154

Pm154m

Pm153

Pm152

Pm152m

Pm152m1

Pm151

Pm160

Pm160m

Pm159

Pm165

Pm161

Pm162

Pm163

Pm164

Sm129

Sm130

Sm131

Sm139

Sm139m

Sm140

Sm141

Sm141m

Sm132

Sm133

Sm133m

Sm134

Sm135

Sm136

Sm137

Sm138

Sm150

Sm151

Sm142

Sm143

Sm143m

Sm144

Sm145

Sm146

Sm147

Sm148

Sm149

Sm164

Sm163

Sm162

Sm168

Sm167

Sm166

Sm165

Sm161

Sm152

Sm153

Sm154

Sm155

Sm156

Sm157

Sm158

Sm159

Sm160

Eu170

Eu169

Eu164

Eu163

Eu166

Eu165

Eu168

Eu167

Eu130

Eu131

Eu132

Eu141

Eu141m

Eu142

Eu142m

Eu134

Eu135

Eu136

Eu136m

Eu137

Eu138

Eu139

Eu140

Eu140m

Eu152

Eu152m

Eu152m1

Eu143

Eu144

Eu145

Eu146

Eu147

Eu148

Eu149

Eu150

Eu150m

Eu151

Eu153

Eu154

Eu154m

Eu155

Eu156

Eu157

Eu158

Eu159

Eu160

Eu160m

Eu161

Eu162

Eu162m

Gd143

Gd143m

Gd134

Gd136

Gd135

Gd138

Gd137

Gd140

Gd139

Gd139m

Gd142

Gd141

Gd141m

Gd145

Gd145m

Gd144

Gd147

Gd146

Gd149

Gd148

Gd151

Gd150

Gd153

Gd152

Gd154

Gd156

Gd155

Gd158

Gd157

Gd160

Gd159

Gd162

Gd161

Gd163

Gd163m

Gd168

Gd167

Gd166

Gd165

Gd164

Gd172

Gd171

Gd170

Gd169

Tb166

Tb165

Tb168

Tb167

Tb174

Tb173

Tb170

Tb169

Tb172

Tb171

Tb145

Tb147

Tb147m

Tb146

Tb146m

Tb149

Tb149m

Tb148

Tb148m

Tb151

Tb151m

Tb150

Tb150m

Tb153

Tb152

Tb152m

Tb154

Tb154m

Tb154m1

Tb156

Tb156m

Tb156m1

Tb155

Tb158

Tb158m

Tb157

Tb160

Tb159

Tb162

Tb162m

Tb161

Tb164

Tb164m

Tb163

Tb135

Tb138

Tb140

Tb139

Tb142

Tb142m

Tb141

Tb144

Tb144m

Tb143

Tb143m

Dy141

Dy142

Dy139

Dy140

Dy145

Dy145m

Dy143

Dy143m

Dy144

Dy148

Dy149

Dy149m

Dy146

Dy146m

Dy147

Dy147m

Dy152

Dy153

Dy150

Dy151

Dy154

Dy155

Dy156

Dy159

Dy160

Dy157

Dy158

Dy163

Dy164

Dy161

Dy162

Dy165

Dy165m

Dy176

Dy168

Dy167

Dy166

Dy172

Dy172m

Dy171

Dy170

Dy169

Dy175

Dy174

Dy173

Ho140

Ho143

Ho144

Ho141

Ho142

Ho145

Ho146

Ho147

Ho150

Ho150m

Ho151

Ho151m

Ho148

Ho148m

Ho149

Ho149m

Ho154

Ho154m

Ho155

Ho152

Ho152m

Ho153

Ho153m

Ho156

Ho156m

Ho156m1

Ho157

Ho158

Ho158m

Ho158m1

Ho161

Ho161m

Ho162

Ho162m

Ho159

Ho159m

Ho160

Ho160m

Ho160m1

Ho165

Ho166

Ho166m

Ho163

Ho163m

Ho164

Ho164m

Ho168

Ho168m

Ho167

Ho170

Ho170m

Ho169

Ho172

Ho171

Ho174

Ho173

Ho176

Ho175

Ho177

Ho178

Er176

Er175

Er174

Er174m

Er173

Er172

Er171

Er170

Er169

Er168

Er177

Er180

Er179

Er178

Er146

Er145

Er145m

Er144

Er143

Er147

Er147m

Er149

Er149m

Er148

Er153

Er152

Er151

Er151m

Er150

Er157

Er156

Er155

Er154

Er160

Er159

Er158

Er164

Er163

Er162

Er161

Er167

Er167m

Er166

Er165

Tm144

Tm148

Tm147

Tm146

Tm146m

Tm146m1

Tm145

Tm151

Tm151m

Tm150

Tm150m

Tm149

Tm155

Tm155m

Tm154

Tm154m

Tm153

Tm153m

Tm152

Tm152m

Tm158

Tm157

Tm156

Tm162

Tm162m

Tm161

Tm161m

Tm160

Tm160m

Tm159

Tm166

Tm166m

Tm165

Tm164

Tm164m

Tm163

Tm168

Tm167

Tm178

Tm177

Tm177m

Tm174

Tm174m

Tm173

Tm176

Tm175

Tm170

Tm169

Tm172

Tm171

Tm181

Tm180

Tm179

Yb149

Yb159

Yb156

Yb155

Yb158

Yb157

Yb152

Yb151

Yb151m

Yb154

Yb153

Yb150

Yb167

Yb166

Yb169

Yb169m

Yb168

Yb163

Yb162

Yb165

Yb164

Yb161

Yb160

Yb171

Yb170

Yb182

Yb181

Yb180

Yb175

Yb174

Yb173

Yb172

Yb179

Yb178

Yb177

Yb177m

Yb176

Yb176m

Yb185

Yb184

Yb183

Lu173

Lu172

Lu172m

Lu175

Lu174

Lu174m

Lu177

Lu177m

Lu176

Lu176m

Lu179

Lu178

Lu178m

Lu180

Lu182

Lu181

Lu171

Lu171m

Lu184

Lu183

Lu186

Lu185

Lu188

Lu187

Lu158

Lu157

Lu157m

Lu160

Lu160m

Lu159

Lu154

Lu154m

Lu153

Lu156

Lu156m

Lu155

Lu155m

Lu152

Lu151

Lu151m

Lu169

Lu169m

Lu168

Lu168m

Lu170

Lu170m

Lu165

Lu164

Lu167

Lu167m

Lu166

Lu166m

Lu166m1

Lu161

Lu163

Lu162

Lu162m

Lu162m1

Lu150

Hf161

Hf159

Hf160

Hf157

Hf158

Hf155

Hf156

Hf153

Hf154

Hf170

Hf171

Hf171m

Hf168

Hf169

Hf166

Hf167

Hf164

Hf165

Hf162

Hf163

Hf181

Hf180

Hf180m

Hf179

Hf179m

Hf179m1

Hf178

Hf178m

Hf178m1

Hf177

Hf177m

Hf177m1

Hf176

Hf175

Hf174

Hf173

Hf172

Hf182

Hf182m

Hf190

Hf189

Hf188

Hf187

Hf186

Hf186m

Hf185

Hf184

Hf184m

Hf184m1

Hf183

Ta161

Ta161m

Ta162

Ta159

Ta159m

Ta160

Ta160m

Ta157

Ta158

Ta155

Ta156

Ta156m

Ta172

Ta170

Ta171

Ta168

Ta169

Ta166

Ta167

Ta164

Ta165

Ta163

Ta181

Ta180

Ta180m

Ta182

Ta182m

Ta182m1

Ta177

Ta176

Ta179

Ta178

Ta178m

Ta178m1

Ta173

Ta175

Ta174

Ta194

Ta193

Ta192

Ta191

Ta188

Ta188m

Ta187

Ta187m

Ta187m1

Ta190

Ta189

Ta184

Ta183

Ta186

Ta186m

Ta186m1

Ta185

W191

W192

W193

W187

W188

W189

W190

W184

W185

W185m

W186

W194

W195

W196

W197

W180

W181

W182

W183

W183m

W176

W177

W178

W179

W179m

W174

W175

W163

W162

W161

W160

W159

W158

W157

W173

W172

W171

W170

W169

W168

W167

W166

W165

W164

Re193

Re194

Re194m

Re194m1

Re191

Re192

Re185

Re186

Re186m

Re189

Re190

Re190m

Re187

Re188

Re188m

Re196

Re197

Re195

Re198

Re199

Re182

Re182m

Re183

Re180

Re181

Re184

Re184m

Re175

Re178

Re179

Re176

Re177

Re164

Re164m

Re163

Re163m

Re162

Re162m

Re161

Re161m

Re160

Re159

Re159m

Re174

Re173

Re172

Re172m

Re171

Re170

Re170m

Re169

Re169m

Re168

Re167

Re167m

Re166

Re165

Re165m

Os166

Os167

Os168

Os169

Os170

Os171

Os172

Os173

Os174

Os175

Os161

Os162

Os163

Os164

Os165

Os202

Os203

Os196

Os197

Os198

Os199

Os200

Os201

Os191

Os191m

Os192

Os192m

Os193

Os194

Os195

Os195m

Os186

Os187

Os188

Os189

Os189m

Os190

Os190m

Os180

Os181

Os181m

Os182

Os183

Os183m

Os184

Os185

Os176

Os177

Os178

Os179

Ir200

Ir201

Ir198

Ir199

Ir197

Ir197m

Ir204

Ir205

Ir202

Ir203

Ir189

Ir190

Ir190m

Ir190m1

Ir187

Ir187m

Ir188

Ir195

Ir195m

Ir196

Ir196m

Ir193

Ir193m

Ir194

Ir194m

Ir191

Ir191m

Ir191m1

Ir192

Ir192m

Ir192m1

Ir178

Ir179

Ir177

Ir186

Ir186m

Ir184

Ir185

Ir182

Ir183

Ir180

Ir181

Ir167

Ir167m

Ir168

Ir168m

Ir169

Ir169m

Ir170

Ir170m

Ir171

Ir171m

Ir172

Ir172m

Ir173

Ir173m

Ir174

Ir174m

Ir175

Ir175m

Ir176

Ir164

Ir165

Ir165m

Ir166

Ir166m

Pt208

Pt178

Pt179

Pt184

Pt185

Pt185m

Pt186

Pt187

Pt180

Pt181

Pt182

Pt183

Pt183m

Pt188

Pt189

Pt190

Pt195

Pt195m

Pt196

Pt197

Pt197m

Pt191

Pt192

Pt193

Pt193m

Pt194

Pt198

Pt199

Pt199m

Pt200

Pt201

Pt206

Pt207

Pt202

Pt203

Pt203m

Pt204

Pt205

Pt166

Pt165

Pt167

Pt169

Pt168

Pt171

Pt170

Pt173

Pt172

Pt175

Pt174

Pt177

Pt176

Au171

Au171m

Au170

Au170m

Au173

Au173m

Au172

Au172m

Au175

Au175m

Au174

Au174m

Au177

Au177m

Au176

Au176m

Au178

Au178m

Au188

Au179

Au182

Au183

Au180

Au181

Au186

Au187

Au187m

Au184

Au184m

Au185

Au185m

Au189

Au189m

Au190

Au190m

Au193

Au193m

Au194

Au194m

Au194m1

Au191

Au191m

Au192

Au192m

Au197

Au197m

Au198

Au198m

Au195

Au195m

Au196

Au196m

Au196m1

Au200

Au200m

Au201

Au199

Au204

Au205

Au205m

Au202

Au203

Au208

Au206

Au207

Au209

Au210

Hg170

Hg174

Hg173

Hg172

Hg171

Hg178

Hg177

Hg176

Hg175

Hg179

Hg183

Hg184

Hg185

Hg185m

Hg186

Hg187

Hg187m

Hg188

Hg189

Hg189m

Hg190

Hg191

Hg191m

Hg192

Hg193

Hg193m

Hg194

Hg195

Hg195m

Hg196

Hg197

Hg197m

Hg198

Hg199

Hg199m

Hg200

Hg201

Hg202

Hg203

Hg204

Hg180

Hg181

Hg182

Hg205

Hg206

Hg207

Hg208

Hg209

Hg210

Hg211

Hg212

Hg213

Hg214

Hg215

Hg216

Tl192

Tl192m

Tl193

Tl193m

Tl191

Tl191m

Tl189

Tl189m

Tl190

Tl190m

Tl187

Tl187m

Tl188

Tl188m

Tl185

Tl185m

Tl186

Tl186m

Tl186m1

Tl183

Tl184

Tl184m

Tl184m1

Tl203

Tl204

Tl201

Tl202

Tl200

Tl198

Tl198m

Tl199

Tl196

Tl196m

Tl197

Tl197m

Tl194

Tl194m

Tl195

Tl195m

Tl181

Tl182

Tl182m

Tl214

Tl215

Tl212

Tl213

Tl211

Tl209

Tl210

Tl207

Tl207m

Tl208

Tl205

Tl206

Tl206m

Tl216

Tl217

Tl176

Tl177

Tl178

Tl179

Tl180

Pb178

Pb179

Pb180

Pb181

Pb198

Pb199

Pb199m

Pb200

Pb201

Pb201m

Pb194

Pb195

Pb195m

Pb196

Pb197

Pb197m

Pb202

Pb202m

Pb203

Pb203m

Pb203m1

Pb204

Pb204m

Pb187

Pb187m

Pb188

Pb189

Pb189m

Pb190

Pb183

Pb183m

Pb184

Pb185

Pb185m

Pb186

Pb191

Pb191m

Pb192

Pb193

Pb193m

Pb182

Pb220

Pb216

Pb217

Pb218

Pb219

Pb209

Pb210

Pb211

Pb205

Pb206

Pb207

Pb207m

Pb208

Pb212

Pb213

Pb214

Pb215

Bi203

Bi203m

Bi204

Bi196

Bi196m

Bi196m1

Bi197

Bi197m

Bi194

Bi194m

Bi194m1

Bi195

Bi195m

Bi200

Bi200m

Bi200m1

Bi201

Bi201m

Bi198

Bi198m

Bi198m1

Bi199

Bi199m

Bi202

Bi193

Bi193m

Bi185

Bi186

Bi184

Bi189

Bi190

Bi190m

Bi187

Bi188

Bi188m

Bi191

Bi191m

Bi192

Bi192m

Bi223

Bi224

Bi218

Bi219

Bi216

Bi216m

Bi217

Bi222

Bi220

Bi221

Bi214

Bi214m

Bi215

Bi215m

Bi213

Bi207

Bi208

Bi205

Bi206

Bi211

Bi212

Bi212m

Bi212m1

Bi209

Bi210

Bi210m

Po205

Po206

Po207

Po207m

Po208

Po209

Po210

Po211

Po211m

Po212

Po212m

Po213

Po214

Po215

Po216

Po217

Po218

Po219

Po220

Po221

Po222

Po223

Po224

Po225

Po226

Po227

Po186

Po187

Po188

Po189

Po190

Po191

Po192

Po193

Po193m

Po194

Po195

Po195m

Po196

Po197

Po197m

Po198

Po199

Po199m

Po200

Po201

Po201m

Po202

Po203

Po203m

Po204

At193

At194

At194m

At191

At192

At192m

At204

At204m

At202

At202m

At202m1

At203

At200

At200m

At200m1

At201

At198

At198m

At199

At199m

At196

At197

At197m

At195

At195m

At213

At214

At211

At212

At212m

At209

At210

At207

At208

At205

At206

At215

At224

At222

At223

At220

At221

At218

At219

At216

At217

At225

At226

At229

At227

At228

Rn214

Rn213

Rn215

Rn210

Rn209

Rn212

Rn211

Rn206

Rn208

Rn207

Rn226

Rn225

Rn224

Rn221

Rn220

Rn223

Rn222

Rn217

Rn216

Rn219

Rn218

Rn231

Rn228

Rn227

Rn230

Rn229

Rn195

Rn195m

Rn194

Rn193

Rn203

Rn203m

Rn202

Rn205

Rn204

Rn199

Rn199m

Rn198

Rn201

Rn201m

Rn200

Rn197

Rn196

Fr226

Fr225

Fr224

Fr219

Fr218

Fr217

Fr223

Fr222

Fr221

Fr220

Fr216

Fr215

Fr214

Fr213

Fr208

Fr207

Fr212

Fr211

Fr210

Fr209

Fr230

Fr229

Fr228

Fr227

Fr233

Fr232

Fr231

Fr205

Fr204

Fr204m

Fr204m1

Fr203

Fr203m

Fr202

Fr202m

Fr206

Fr206m

Fr206m1

Fr197

Fr201

Fr201m

Fr200

Fr199

Fr198

Fr198m

Ra225

Ra224

Ra227

Ra226

Ra219

Ra218

Ra221

Ra220

Ra223

Ra222

Ra214

Ra213

Ra216

Ra215

Ra217

Ra208

Ra210

Ra209

Ra212

Ra211

Ra228

Ra230

Ra229

Ra232

Ra231

Ra234

Ra233

Ra203

Ra202

Ra205

Ra205m

Ra204

Ra207

Ra206

Ra201

Ra201m

Ac208

Ac207

Ac206

Ac206m

Ac205

Ac234

Ac233

Ac232

Ac231

Ac230

Ac229

Ac236

Ac235

Ac212

Ac211

Ac210

Ac209

Ac218

Ac217

Ac216

Ac215

Ac214

Ac213

Ac223

Ac222

Ac222m

Ac221

Ac220

Ac219

Ac228

Ac227

Ac226

Ac225

Ac224

Th238

Th235

Th234

Th237

Th236

Th231

Th230

Th233

Th232

Th228

Th227

Th229

Th224

Th223

Th226

Th225

Th220

Th222

Th221

Th217

Th216

Th219

Th218

Th213

Th212

Th215

Th214

Th211

Th210

Th209

Th208

Pa211

Pa215

Pa214

Pa213

Pa212

Pa219

Pa218

Pa217

Pa216

Pa220

Pa222

Pa221

Pa226

Pa225

Pa224

Pa223

Pa230

Pa229

Pa228

Pa227

Pa233

Pa232

Pa231

Pa237

Pa236

Pa235

Pa234

Pa234m

Pa239

Pa238

U215

U222

U224

U223

U226

U225

U217

U216

U219

U218

U221

U233

U232

U235

U235m

U234

U237

U236

U228

U227

U230

U229

U231

U242

U239

U238

U241

U240

Np222

Np220

Np219

Np226

Np225

Np224

Np223

Np242

Np242m

Np241

Np240

Np240m

Np239

Np238

Np244

Np243

Np232

Np231

Np230

Np229

Np228

Np227

Np237

Np236

Np236m

Np235

Np234

Np233

Pu246

Pu245

Pu247

Pu244

Pu244m

Pu243

Pu242

Pu239

Pu238

Pu241

Pu240

Pu235

Pu234

Pu237

Pu237m

Pu236

Pu232

Pu231

Pu233

Pu228

Pu230

Pu229

Am230

Am229

Am234

Am233

Am232

Am237

Am236

Am236m

Am235

Am241

Am240

Am239

Am238

Am244

Am244m

Am243

Am242

Am242m

Am247

Am246

Am246m

Am245

Am223

Cm237

Cm236

Cm234

Cm233

Cm235

Cm246

Cm246m

Cm248

Cm247

Cm239

Cm238

Cm241

Cm240

Cm243

Cm242

Cm245

Cm244

Cm250

Cm249

Cm251

Bk238

Bk239

Bk240

Bk241

Bk242

Bk243

Bk244

Bk245

Bk246

Bk247

Bk248

Bk248m

Bk233

Bk234

Bk236

Bk237

Bk249

Bk250

Bk251

Bk252

Bk253

Cf246

Cf247

Cf244

Cf245

Cf242

Cf243

Cf240

Cf241

Cf238

Cf239

Cf248

Cf237

Cf255

Cf256

Cf253

Cf254

Cf251

Cf252

Cf249

Cf250

Es246

Es247

Es248

Es242

Es243

Es244

Es245

Es240

Es241

Es257

Es253

Es254

Es254m

Es255

Es256

Es256m

Es249

Es250

Es250m

Es251

Es252

Fm241

Fm245

Fm244

Fm243

Fm242

Fm249

Fm248

Fm247

Fm247m

Fm246

Fm252

Fm251

Fm250

Fm250m

Fm256

Fm255

Fm254

Fm253

Fm259

Fm258

Fm257

Md252

Md251

Md251m

Md254

Md254m

Md253

Md256

Md255

Md258

Md258m

Md257

Md260

Md259

Md245

Md244

Md247

Md247m

Md246

Md246m

Md249

Md249m

Md248

Md250

Md250m

No260

No259

No258

No257

No256

No255

No254

No254m

No253

No252

No252m

No262

No251

No251m

No250

No249

Lr262

Lr261

Lr258

Lr257

Lr257m

Lr260

Lr259

Lr254

Lr254m

Lr253

Lr253m

Lr256

Lr255

Lr255m

Lr264

Lr266

Lr251

Lr251m

Lr252

Rf267

Rf265

Rf260

Rf259

Rf258

Rf257

Rf257m

Rf263

Rf262

Rf261

Rf261m

Rf256

Rf255

Rf254

Rf253

Db268

Db270

Db267

Db266

Db258

Db258m

Db257

Db257m

Db260

Db259

Db262

Db261

Db263

Db256

Db255

Db255m

Sg264

Sg263

Sg263m

Sg262

Sg261

Sg260

Sg259

Sg259m

Sg258

Sg265

Sg265m

Sg267

Sg266

Sg271

Sg269

Bh278

Bh262

Bh262m

Bh261

Bh264

Bh260

Bh267

Bh272

Bh274

Bh271

Bh270

Bh266

Bh265

Hs267

Hs267m

Hs266

Hs266m

Hs265

Hs271

Hs270

Hs269

Hs268

Hs275

Hs273

Hs264

Hs263

Hs277

Mt277

Mt276

Mt276m

Mt278

Mt270

Mt275

Mt274

Mt266

Mt268

Ds267

Ds269

Ds281

Ds280

Ds282

Ds270

Ds277

Ds273

Ds271

Ds271m

Ds279

Ds279m

Rg286

Rg282

Rg281

Rg278

Rg274

Rg272

Rg279

Rg280

Cn277

Cn281

Cn286

Cn282

Cn283

Cn284

Cn285

Nh278

Nh282

Nh284

Nh285

Nh283

Nh286

Nh290

Fl284

Fl285

Fl286

Fl287

Fl288

Fl289

Fl290

Mc290

Mc288

Mc289

Mc287

Lv290

Lv291

Lv292

Lv293

Ts293

Ts294

Og294

Ru103m

Na24m

Na36

K32

K33

K34

Rb71

Cs125m

Cs144m

Fr214m

Fr218m

Be5

Mg39

Ba130m

Ra203m

Ra207m

Ra213m

Ca34

Xe132m

Rn197m

Br67

At196m

O27

Po191m

Po205m1

Po205m

As60

As61

As62

Sb103

Bi184m

Bi186m

Bi187m

Bi189m

Bi204m1

Bi204m

Bi208m

P24

N25

Zn61m1

Zn61m

Zn73m1

Zn73m

Cu52

Cu76m

Co49

V40

V41

Mn45

V46m

Ti38

Sc36

Sc37

Sc38

Y88m

Y88m1

Nb90m1

Tc86m

Tc117m

Pd117m

Ag95m

Ag95m1

Ag95m2

Ag114m

Ta157m

Ta157m1

Ta158m

Ta176m

Ta176m1

Ta179m

Ta179m1

Ta185m

W180m

W186m

W190m

Re183m

Ir164m

Ir188m

Ir189m

Ir189m1

Ir194m1

Pt184m

Au169

Au192m1

Hg205m

La117m

La118

La119

Ce119

Ce120

Ce132m

Pr122

Pr123

Nd124

Pm126

Pm127

Pm138m

Pm142m

Sm128

Sm143m1

Sm153m

Eu133

Eu136m1

Gd155m

Tb136

Tb137

Tb141m

Tb145m

Tb146m1

Dy138

Dy157m

Ho148m1

Ho155m

Er157m

Yb148

Yb171m

Yb175m

Lu153m

Lu155m1

Lu161m

Lu177m1

Lu179m

Lu180m

B6

Ga56

Ga57

Ga58

In114m1

Tl179m

Tl181m

Tl183m

Tl188m1

Tl198m1

Tl199m

Tl200m

Tl201m

Ac208m

Ac216m

Pa217m

Pa240

U220

Am231

Am242m1

Am248

Am249

Cm244m

Bk235

Bk254

Es247m

Es258

Fm260

Md245m

Md261

No261

Lr263

C21

Ge58

Pb181m

Pb205m

Rf264

Db264

Db265

Bh263

Bh269

Hs265m

Mt265

Mt266m

Mt267

Mt269

Mt271

Mt273

Ds268

Ds270m

Ds272

Implementations

impl Nuclide

pub fn get_mass_yield_66( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=66

pub fn get_mass_yield_67( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=67

pub fn get_mass_yield_68( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=68

pub fn get_mass_yield_69( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=69 after this no more vanadium

pub fn get_mass_yield_70( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=70

pub fn get_mass_yield_71( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=71

pub fn get_mass_yield_72( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=72

pub fn get_mass_yield_73( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=73

pub fn get_mass_yield_74( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=74

pub fn get_mass_yield_75( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=75

pub fn get_mass_yield_76( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=76

pub fn get_mass_yield_77( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=77

pub fn get_mass_yield_78( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=78

pub fn get_mass_yield_79( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=79

pub fn get_mass_yield_80( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=80

pub fn get_mass_yield_81( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=81

pub fn get_mass_yield_82( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=82

pub fn get_mass_yield_83( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=83

pub fn get_mass_yield_84( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=84

pub fn get_mass_yield_85( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=85

pub fn get_mass_yield_86( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=86

pub fn get_mass_yield_87( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=87

pub fn get_mass_yield_88( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=88

pub fn get_mass_yield_89( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=89

pub fn get_mass_yield_90( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=90

pub fn get_mass_yield_91( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=91

pub fn get_mass_yield_92( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=92

pub fn get_mass_yield_93( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=93

pub fn get_mass_yield_94( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=94

pub fn get_mass_yield_95( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=95

pub fn get_mass_yield_96( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=96

pub fn get_mass_yield_97( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=97

pub fn get_mass_yield_98( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=98

pub fn get_mass_yield_99( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=99

pub fn get_mass_yield_100( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=100

impl Nuclide

pub fn get_mass_yield_101( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=101

pub fn get_mass_yield_102( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=102

pub fn get_mass_yield_103( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=103

pub fn get_mass_yield_104( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=104

pub fn get_mass_yield_105( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=105

pub fn get_mass_yield_106( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=106

pub fn get_mass_yield_107( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=107

pub fn get_mass_yield_108( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=108

pub fn get_mass_yield_109( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=109

pub fn get_mass_yield_110( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=110

pub fn get_mass_yield_111( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=111

pub fn get_mass_yield_112( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=112

pub fn get_mass_yield_113( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=113

pub fn get_mass_yield_114( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=114

pub fn get_mass_yield_115( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=115

pub fn get_mass_yield_116( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=116

pub fn get_mass_yield_117( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=117

pub fn get_mass_yield_118( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=118

pub fn get_mass_yield_119( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=119

pub fn get_mass_yield_120( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=120

pub fn get_mass_yield_121( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=121

pub fn get_mass_yield_122( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=122

pub fn get_mass_yield_123( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=123

pub fn get_mass_yield_124( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=124

pub fn get_mass_yield_125( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=125

pub fn get_mass_yield_126( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=126

pub fn get_mass_yield_127( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=127

pub fn get_mass_yield_128( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=128

pub fn get_mass_yield_129( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=129

pub fn get_mass_yield_130( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=130

pub fn get_mass_yield_131( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=131

pub fn get_mass_yield_132( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=132

pub fn get_mass_yield_133( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=133

pub fn get_mass_yield_134( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=134

pub fn get_mass_yield_135( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=135

impl Nuclide

pub fn get_mass_yield_136( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=136

pub fn get_mass_yield_137( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=137

pub fn get_mass_yield_138( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=138

pub fn get_mass_yield_139( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=139

pub fn get_mass_yield_140( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=140

pub fn get_mass_yield_141( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=141

pub fn get_mass_yield_142( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=142

pub fn get_mass_yield_143( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=143

pub fn get_mass_yield_144( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=144

pub fn get_mass_yield_145( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=145

pub fn get_mass_yield_146( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=146

pub fn get_mass_yield_147( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=147

pub fn get_mass_yield_148( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=148

pub fn get_mass_yield_149( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=149

pub fn get_mass_yield_150( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=150

pub fn get_mass_yield_151( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=151

pub fn get_mass_yield_152( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=152

pub fn get_mass_yield_153( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=153

pub fn get_mass_yield_154( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=154

pub fn get_mass_yield_155( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=155

pub fn get_mass_yield_156( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=156

pub fn get_mass_yield_157( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=157

pub fn get_mass_yield_158( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=158

pub fn get_mass_yield_159( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=159

pub fn get_mass_yield_160( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=160

pub fn get_mass_yield_161( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=161

pub fn get_mass_yield_162( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=162

pub fn get_mass_yield_163( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=163

pub fn get_mass_yield_164( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=164

pub fn get_mass_yield_165( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=165

pub fn get_mass_yield_166( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=166

pub fn get_mass_yield_167( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=167

pub fn get_mass_yield_168( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=168

pub fn get_mass_yield_169( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=169

pub fn get_mass_yield_170( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=170

pub fn get_mass_yield_171( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=171

pub fn get_mass_yield_172( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> f64

gets mass yield for A=172

impl Nuclide

pub fn get_mass_yield_vector( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> Vec<(u32, f64)>

generates a fission yield vector for all nuclides with mass 66 to 172 assuming neutron comes in to cause fission

impl Nuclide

pub fn get_mass_distribution_vector( &self, neutron_energy: Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>, ) -> Vec<(u32, f64)>

generates a mass distribution vector for said nuclide

the vector will be in a tuple form,

impl Nuclide

pub fn get_mass_excess( &self, ) -> Quantity<dyn Dimension<N = Z0, I = Z0, Kind = dyn Kind, M = PInt<UInt<UTerm, B1>>, T = NInt<UInt<UInt<UTerm, B1>, B0>>, J = Z0, Th = Z0, L = PInt<UInt<UInt<UTerm, B1>, B0>>>, dyn Units<f64, mass = kilogram, time = second, electric_current = ampere, luminous_intensity = candela, amount_of_substance = mole, thermodynamic_temperature = kelvin, length = meter>, f64>

returns the proton number and nucleon number for the given nuclide

impl Nuclide

pub fn get_z_a(&self) -> (u32, u32)

returns the proton number and nucleon number for the given nuclide

pub fn get_zaid_number(&self) -> u32

the zaid number is just a naming convention for the isotopes this is 1000*z + a

excited states have the different zaid identifier as the ground state

for excited state, the formula is

ZAID = z * 1000 + a + s * 400 https://mcnp.lanl.gov/pdf_files/TechReport_2023_LANL_LA-UR-23-30559_Kleedtke.pdf this is mcnp convention

impl Nuclide

pub fn try_get_nuclide_from_zaid(zaid: u32) -> Option<Nuclide>

converts a zaid code to a nuclide not all numbers will match though!

pub fn try_get_nuclide_from_z_a_and_energy_state( z: u32, a: u32, excited_state: ExcitationState, ) -> Option<Nuclide>

get nuclide from (z,a) and excited state

pub fn try_get_nuclide_from_z_a_and_ground_state( z: u32, a: u32, ) -> Option<Nuclide>

get nuclide from (z,a) and assume ground state

impl Nuclide

pub fn get_exicted_state(&self) -> ExcitationState

gets excited state for nuclide ground, m (1st excited state) m1 (2nd excited state, sometimes denoted n in the fission yield database in JANIS) m2 (3rd excited state)

Trait Implementations

impl Clone for Nuclide

fn clone(&self) -> Nuclide

Returns a duplicate of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl Debug for Nuclide

fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error>

Formats the value using the given formatter.

impl FromStr for Nuclide

type Err = ParseError

The associated error which can be returned from parsing.

fn from_str(s: &str) -> Result<Nuclide, <Nuclide as FromStr>::Err>

Parses a string s to return a value of this type.

impl PartialEq for Nuclide

fn eq(&self, other: &Nuclide) -> bool

Tests for self and other values to be equal, and is used by ==.

fn ne(&self, other: &Rhs) -> bool

Tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.

impl TryFrom<&str> for Nuclide

type Error = ParseError

The type returned in the event of a conversion error.

fn try_from(s: &str) -> Result<Nuclide, <Nuclide as TryFrom<&str>>::Error>

Performs the conversion.

impl Copy for Nuclide

impl Eq for Nuclide

impl StructuralPartialEq for Nuclide