А.И. Карцев

Аватар пользователя А.И. Карцев
Алексей
Иванович
Карцев
Место работы, город: 
Томск
Степень: 
PhD
Должность, звание: 
доцент
Публикации: 
1 V. Vettchinkina, A. Kartsev, D. Karlsson, C. Verdozzi, Interacting fermions in 1D disordered lattices: Exploring localization and transport properties with lattice density functional theories, Phys. Rev. B 87, 115117 (2013). DOI:
 
2 A. Kartsev, D. Karlsson, A. Privitera and C. Verdozz, Three-dimensional dynamics of a fermionic Mott wedding-cake in clean and disordered optical lattices, Scientific Reports 3, 2570 (2013) (Nature Publishing Group).
 
3 A. Kartsev, C. Verdozzi and G. Stefanucci, Nonadiabatic Van der Pol oscillations in molecular transport, The European Physical Journal B 87 (1), 1-12 (2014).
 
4 A. Kartsev, Non-equilibrium fermions within lattice density functional theory: quantum transport and ultracold-atom phenomena. Lund University, 2013.
 
5 V.N. Butrim, I.M. Razumovskii, A.G. Beresnev, A. Kartsev, V.I. Razumovskiy, A.S. Trushnikova, Effect of alloying elements and impurity (N) on bulk and grain boundary cohesion in Cr-base alloys, Advanced Materials Research Volume 1119 (2015) pp 569-574.
 
6 A. Kartsev and N. Bondarenko, Thermodynamic properties of NiAs-FeN phase from first principles, proceedings of the 2015 International Conference on Simulation, Modelling and Mathematical Statistics (SMMS 2015) DEStech Publications, Inc. ISBN: 978-1-60595-112-6.
 
7 Boström, E., Hopjan, M., Kartsev, A., Verdozzi, C. and Almbladh, C.O., Nonequilibrium Green’s functions and atom-surface dynamics: Simple views from a simple model system. Journal of Physics: Conference Series (Vol. 696, No. 1, p. 012007) 2016, March. IOP Publishing.
 
8 K. Bairagi, O. Iasco, A. Bellec, A. Katsev, J. Lagoute, C. Chacon, Y. Girard, S. Rousset, Y. Dappe, A. Smogunov, C. Barreteau, M. Boillot, T. Mallah, V. Repain, Molecular-scale dynamics of light-induced spin cross-over in a two-dimensional layer, 2016. Nature Communications 7, Article number: 12212.
 
9 A. Kartsev, N. Bondarenko, Noval hexagonal FeN phase: high pressure stability and magnetism, submitted to Journal of Applied Physics.
Область экспертизы: 
Solid State Physics, Electronic Theory of Solids, Scientific Programming, Lattice Dynamic, Density Functional Theory, Strongly Correlated Systems, Hubbard Model, UltraCold Atoms, Exact static and time-dependent methods, Numerical solution of model Hamiltonians

 

Дополнительные сведения: 
Curriculum Vitae: