qpv-research-group / solcore5
A multi-scale, python-based library for the modelling of solar cells and semiconductor materials
☆137Updated last week
Alternatives and similar repositories for solcore5:
Users that are interested in solcore5 are comparing it to the libraries listed below
- An open source drift diffusion code based in MATLAB for simulating semiconductor devices with mixed ionic-electronic conducting materials…☆51Updated 2 years ago
- Open-source, integrated optical modelling of complex stacks☆36Updated 4 months ago
- Calculation and visualization tools for theoretical solar cell efficiencies based on the Shockley Queisser limit with options to change t…☆48Updated 8 years ago
- An extensible solar cell modelling framework in python☆9Updated 4 years ago
- Shockley-Queisser limit Calculator. The Shockley-Queisser limit is the maximum photovoltaic efficiency obtained for a solar cell with res…☆16Updated 2 years ago
- A collation of defect parameters in semiconductors☆11Updated 4 years ago
- Optical Modeling (Transfer Matrix): Modeling the light propogation, light absorption, transmission, and reflection in a multi-layer thin-…☆41Updated 6 years ago
- This repository is dedicated to the fit@TDS software. A python code aiming at the retrieving of material parameter from a TeraHertz time …☆20Updated 9 months ago
- Python scripts for refractiveindex.info database☆74Updated 3 weeks ago
- A 1D drift-diffusion simulator for semiconductor devices (LEDs, solar cells, diodes, organics, perovskites)☆61Updated 2 weeks ago
- MIT Photonic-Bands: computation of photonic band structures in periodic media☆172Updated 7 months ago
- tmm_fast is a lightweight package to speed up optical planar multilayer thin-film device computation. Developed by Alexander Luce (@Nerrr…☆66Updated 11 months ago
- Laboratory Instrumentation and Automation☆45Updated 3 months ago
- A Python interface to the COMSOL Multiphysics API☆40Updated 6 years ago
- 1D model written in Python which solves the semiconductor Poisson-Drift-Diffusion equations using finite-differences.☆27Updated 3 years ago
- Quantum Wells, Wires and Dots: A set of tools for simulating semiconductor nanostructures☆19Updated 2 years ago
- Aestimo 1D Schrödinger-Poisson Solver☆54Updated 10 months ago
- Stanford Stratified Structure Solver - Electromagnetic simulator for layered periodic structures☆37Updated 2 weeks ago
- a place for semiconductor models☆14Updated 6 years ago
- 2-d drift-diffusion-Poisson python code☆19Updated last year
- optoelectronic models for tandem/multijunction solar cells☆16Updated 2 weeks ago
- Precise and fast Fermi-Dirac integrals of integer and half integer order.☆18Updated 5 years ago
- Python wrapper for multiple sphere T-matrix (MSTM) code and Mie theory to calculate surface plasmon resonance (SPR) spectrum and fit it t…☆19Updated last month
- Boris Computational Spintronics☆30Updated last year
- Electromagnetic Python☆195Updated last month
- Photonic mode solver with a simple interface.☆83Updated 2 years ago
- An open source ellipsometry analysis tool for reproducible and comprehensible building of optical models.☆20Updated last month
- Pure Python implementation of the finite difference frequency domain (FDFD) method for electromagnetics☆58Updated 6 years ago
- PVfit: Photovoltaic (PV) Device Performance Measurement and Modeling☆13Updated 7 months ago
- EMUstack is an open-source simulation package for calculating light propagation through multi-layered stacks of dispersive, lossy, nanost…☆24Updated 6 months ago