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Crate bijli

Crate bijli 

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Bijli — Electromagnetism simulation for AGNOS

Hindi: बिजली (bijli) — electricity, lightning

Provides electric and magnetic field computation, Maxwell’s equations, charge dynamics, and electromagnetic wave propagation. Built on hisab for numerical computing (complex arithmetic, root-finding, transforms).

§Modules

  • field — Electric and magnetic vector fields, field lines, potentials
  • maxwell — Maxwell’s equations, divergence, curl, wave equation
  • charge — Point charges, Coulomb’s law, Lorentz force, charge distributions
  • wave — EM wave propagation, polarization, Poynting vector
  • circuit — Ohm’s law, capacitance, inductance, RC/RL/RLC circuits
  • material — Dielectric and magnetic materials, polarization, magnetization
  • fdtd — Finite-Difference Time-Domain solver for EM wave simulation
  • relativity — Relativistic electrodynamics, EM tensor, Lorentz field transforms
  • polarization — Jones vectors/matrices, Stokes parameters, Mueller matrices
  • scattering — Mie scattering, Rayleigh scattering, cross-sections
  • beam — Gaussian beams, ABCD matrices, resonator stability, HG/LG modes
  • rf — Transmission lines, S-parameters, Smith chart, matching networks, Touchstone I/O
  • error — Error types

Re-exports§

pub use error::BijliError;

Modules§

beam
Gaussian beams, ABCD ray transfer matrices, resonator stability, and higher-order Hermite-Gaussian / Laguerre-Gaussian modes.
bridge
Cross-crate bridges — primitive-value conversions from other AGNOS science crates. Cross-crate bridges — convert primitive values from other AGNOS science crates into bijli electromagnetism parameters and vice versa.
charge
Point charges, Coulomb’s law, Lorentz force, charge distributions.
circuit
Ohm’s law, resistance, capacitance, inductance, and basic circuits.
error
Error types for bijli.
fdtd
Finite-Difference Time-Domain (FDTD) solver for EM wave propagation.
field
Electric and magnetic vector fields, field lines, potentials.
integration
Integration APIs for downstream consumers (soorat rendering). Integration APIs for downstream consumers.
material
Dielectric and magnetic materials — polarization, bound charges, magnetization.
maxwell
Maxwell’s equations — divergence, curl, wave equation.
polarization
Polarization formalism — Jones vectors/matrices, Stokes parameters, Mueller matrices.
relativity
Relativistic electrodynamics — EM tensor, Lorentz field transforms, retarded potentials, Liénard-Wiechert fields.
rf
RF & Microwave — transmission lines, S-parameters, Smith chart, matching networks, Touchstone I/O, antenna arrays.
scattering
Mie and Rayleigh scattering — cross-sections, efficiencies, phase functions.
wave
Electromagnetic wave propagation, polarization, Poynting vector.