Background and activities
I finished my Master's Degree in physics at NTNU on modeling on X-ray propagation in wave guides and light scattering from Coccoliths in 2017. The thesis was entitled "Simulation of X-ray Propagation in Guiding Structures and Light Scattering From Coccoliths Using Finite Difference Methods". After I graduated, I started my PhD work on the topic atomistic simulations of precipitate formation in aluminum alloy. We apply large scale parallel Density Functional Theory (DFT) calculations to probe the total energy of various configurations of the alloy, which we further use to train a Cluster Expansion model. The Cluster Expansion models enable identification of stable precipitates, phase diagrams etc.
Scientific, academic and artistic work
A selection of recent journal publications, artistic productions, books, including book and report excerpts. See all publications in the database
- (2020) Precipitate formation in aluminium alloys: Multi-scale modelling approach. Acta Materialia. vol. 195.
- (2020) Density functional simulations of pressurized Mg-Zn and Al-Zn alloys. PHYSICAL REVIEW MATERIALS.
- (2019) CLEASE: a versatile and user-friendly implementation of cluster expansion method. Journal of Physics: Condensed Matter. vol. 31 (32).
- (2019) Atomistic simulations of early stage clusters in Al-Mg alloys. Acta Materialia. vol. 166.
- (2018) First Experimental Results on Damage Limits of Superconducting Accelerator Magnet Components Due to Instantaneous Beam Impact. IEEE Transactions on Applied Superconductivity (TAS). vol. 28 (4).
- (2018) High-resolution coherent x-ray diffraction imaging of metal-coated polymer microspheres. Optical Society of America. Journal A: Optics, Image Science, and Vision (JOSA A). vol. 35 (1).