CS:Physics
![Bildet kan inneholde: blå, bærbar datamaskindel, linje, fargerikhet, aqua.](https://www.mn.uio.no/fysikk/studier/master/masteroppgaver/computational-science/csphysics/qcqit.png)
In Computational Physics you learn to use the computer as a laboratory for solving advanced physics problems. Numerical simulations will increasingly dominate our approaches to studying physical systems, in line with the increase in computational capabilities.
Possible applications range from:
- studying quantum physical systems in nanotechnology and the characteristics of new materials
- nuclear and particle physics, from lattice quantum chromodynamics simulations to studies of stars and the synthesis of the elements
- oil flow through various rock strata and storage of CO2
- physics applications to life science and computational neuroscience
- semi-conductor technology and simulating quantum computers or
- combining quantum computing, machine learning and data science to simulate quantum mechanical systems at the smallest length scales.