SuperScreen
is a Python package for simulating the magnetic response of thin film superconducting devices. SuperScreen
solves the coupled Maxwell's and London equations on a triangular mesh using a matrix inversion method described in the following paper:
SuperScreen: An open-source package for simulating the magnetic response of two-dimensional superconducting devices, Computer Physics Communications, Volume 280, 2022, 108464 https://doi.org/10.1016/j.cpc.2022.108464.
The accepted version of the paper can also be found on arXiv: arXiv:2203.13388.
The documentation for SuperScreen
can be found at superscreen.readthedocs.io.
Click the badge below to try SuperScreen
interactively online via Google Colab:
SuperScreen
requires python >=3.8, <3.13
. We recommend installing SuperScreen
in a fresh conda
environment. For more details, see the documentation.
From PyPI, the Python Package Index:
pip install superscreen
From this GitHub repository:
pip install git+https://github.com/loganbvh/superscreen.git
git clone https://github.com/loganbvh/superscreen.git
cd superscreen
pip install -e .
- Primary author and maintainer: @loganbvh.
Want to contribute to SuperScreen
? Check out our contribution guidelines.
Please cite this paper if you use SuperScreen
in your research.
@article{
Bishop-Van_Horn2022-sy,
title = "{SuperScreen}: An open-source package for simulating the magnetic
response of two-dimensional superconducting devices",
author = "Bishop-Van Horn, Logan and Moler, Kathryn A",
journal = "Comput. Phys. Commun.",
volume = 280,
pages = "108464",
month = nov,
year = 2022,
url = "https://doi.org/10.1016/j.cpc.2022.108464"
}