Using Jupyter for reproducible scientific workflows
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Updated
Jun 9, 2022 - Jupyter Notebook
Using Jupyter for reproducible scientific workflows
Ubermag: Towards more effective micromagnetic workflows
Python library for generating simulated XMCD images from micromagnetic simulations.
A package for micromagnetism in python
A full-fledged micromagnetic finite-difference code in Rust
MatLab script for calculation of local FMR frequency using semi-analitical approach
M. Beg, et al. Stable and manipulable Bloch point. Scientific Reports 9, 7959 (2019).
Codes for both magnon-driven hopfion motion and hopfion-induced magnon motion.
Testing package for computational magnetism tools.
Detection of geometric asymmetry in ferromagnetic quantum dots modeled as magnetic potential field wells in thin-film YIG
Auxiliary tutorials based on ubermag
Spin-Hall nano-oscillator simulation using mumax3.
Micromagnetics Monte Carlo(Metropolis Hastings) simulator and energy calculator to study magnetic quasiparticles.
Python package for the analysis of micromagnetic data.
a set of CLI tools to perform spectral analysis of micromagnetics-specific data
Ubermag webpages
Utility package used across Ubermag.
Open-source MOOSE application "Ferret" for parallel mesoscale simulations of ferroic and related electronic materials
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