Associate Professor
Jabir Ali Ouassou
Field of work
I teach mathematics, physics, and programming courses for engineers; do research on superconductivity (theory and numerics); and have a passion for programming and computer systems in general.
I was awarded the Birkeland Prize 2020 – a national award for the best PhD thesis in Physics – for my research on superconductivity in magnetic nanostructures.
I am also currently a guest editor for a topical collection on superconducting spintronics in the "Journal of Superconductivity and Novel Magnetism".
Courses taught
2024 Fall:
- ING202 Programming for engineers
- REAL111 Physics
2024 Spring:
- REAL111 Physics
- MAT202 Mathematics 2
2023 Fall:
- REAL111 Physics
- ING0011 Physics
- MAT110 Mathematics 1
Research areas
Research areas:
- Condensed matter physics
- Superconductivity
- Magnetism
- Non-equilibrium phenomena
- Numerical physics
- Partial differential equations
- Sparse matrices
- Matrix series
- Optimization
- Metamodeling
- ING162, Mechanics for engineers , Spring 2025
- ING164, Mechanics, electricity and chemistry for engineers , Spring 2025
- ING202, Programming for Engineering, Fall 2024
- REAL111, Physics, Fall 2024
- REAL111, Physics, Spring 2025
Publications
-
Bodge: Python package for efficient tight-binding modeling of superconducting nanostructures
-
Josephson effect in a fractal geometry
-
Bodge: Python package for efficient tight-binding modeling of superconductors
-
RKKY interaction in triplet superconductors: Dzyaloshinskii-Moriya-type interaction mediated by spin-polarized Cooper pairs
-
Enhanced controllable triplet proximity effect in superconducting spin-orbit coupled spin valves with modified superconductor/ferromagnet interfaces
Laster...