K-PHOT: Photovoltaic Conversion
Full Code Description
K-PHOT simulates the photovoltaic conversion of light energy into electricity in fusion reactor environments.
Algorithm Explanation
Uses photovoltaic models to convert the fusion-generated photons into electrical energy through photoelectric effects.
Scientific Applications
Optimizing photovoltaic efficiency for converting light from fusion reactions into electrical power.
Input Parameters
Light intensity, Photovoltaic material properties, Energy bandgap
Output Data
Electricity output, Conversion efficiency, Photon absorption rate
Algorithm Examples
1.Photovoltaic effect model for energy conversion
2.Spectral method for optimizing photon absorption
3.Finite element method for light intensity distribution
4.Monte Carlo simulations for photovoltaic efficiency
5.Crank-Nicolson scheme for energy bandgap optimization
6.Boundary value solver for light-to-electricity conversion
7.Adaptive mesh refinement for photovoltaic efficiency modeling
8.Fast Fourier Transform for photon absorption analysis
9.Spectral element method for energy bandgap dynamics
10.Finite volume method for light intensity distribution
11.Particle-in-cell method for photon-electron interaction modeling
12.Time-domain solver for photovoltaic energy output
13.Implicit-explicit solver for light-to-electricity conversion
14.Spectral decomposition for optimizing photon absorption
15.Least squares optimization for photovoltaic material properties
16.Semi-Lagrangian method for light intensity analysis
17.Finite difference time domain (FDTD) for photon energy distribution
18.Radiative transfer model for light-to-electricity conversion efficiency
19.High-order finite element method for photon energy capture
20.Monte Carlo method for optimizing light absorption efficiency