C++ accelerated python module for simulating magnetic nanostructures

Smart Arduino-sketch to measure Earth's magnetic field

My work in the course "FYS3150 - Computational physics" at UiO. This was done in collaboration with Cecilie Glittum (https://github.uio.no/cecilgl). The original github repository can be found at https://github.uio.no/cecilgl/FYS4150

Repository for codes and design files related to an automated reflectometer. This project is made available in an open-source way and can be replicated.

2D Ising model for magnetism (ongoing)

A C++ "Framework" to perform stochastic simulations. Currently mainly focused on the simulation of the magnetisation behavior of nanoparticles in a makrospin approximation

Modelisation of the magnetif field around multiple magnets

Magnetic Levitation Using Arduino: An In-Depth Technical Review. This is a review of an academic project that I participated in 2014.

A library for calculations with circular coils

Atomistic Spin Simulation Framework

JAMS: a GPU accelerated atomistic spin dynamics code

🧱🔍 Wall-Scanner is a portable device based on ESP32 that maps in real-time the presence of metals in walls and displays a heatmap directly in the browser 🌐🧲. Ideal for finding pipes, rebars, and hidden structures, with Wi-Fi connection and internal battery for fast and intuitive scans 📱🔋