János J. Tomán
János J. Tomán
University of Debrecen, Department of Solid State Physics
Verified email at
Cited by
Cited by
Stochastic kinetic mean field model
Z Erdélyi, M Pasichnyy, V Bezpalchuk, JJ Tomán, B Gajdics, AM Gusak
Computer Physics Communications 204, 31-37, 2016
A multiscale procedure based on the stochastic kinetic mean field and the phase-field models for coarsening
B Gajdics, JJ Tomán, H Zapolsky, Z Erdélyi, G Demange
Journal of Applied Physics 126 (6), 065106, 2019
The earliest stage of phase growth in sharp concentration gradients
B Parditka, Tomán, János, C Cserhati, Z Jánosfalvi, A Csik, I Zizak, ...
Acta Materialia 87, 111-120, 2015
The effect of introducing stochasticity to kinetic mean-field calculations: Comparison with lattice kinetic Monte Carlo in case of regular solid solutions
TV Zaporozhets, A Taranovskyy, G Jáger, AM Gusak, Z Erdélyi, JJ Tomán
Computational Materials Science 171, 109251, 2020
Linear-parabolic transition in reactive diffusion–A concept of kinetic modelling
JJ Tomán, G Schmitz, Z Erdélyi
Computational Materials Science 138, 183-191, 2017
An effective method to calculate atomic movements in 3D objects with tuneable stochasticity (3DO-SKMF)
B Gajdics, JJ Tomán, Z Erdélyi
Computer Physics Communications 258, 107609, 2021
Composition dependent gradient energy coefficient: How the asymmetric miscibility gap affects spinodal decomposition in Ag-Cu?
B Gajdics, JJ Tomán, Z Erdélyi
Calphad 67, 101665, 2019
Integration of spatial ALD aluminum oxide for rear side passivation of p-type PERC/PERL solar cells
E Cornagliotti, L Tous, A Uruena, A Rothschild, R Russell, V Lu, ...
28th European Photovoltaic Solar Energy Conference and Exhibition-EUPVSEC …, 2013
Nucleation and growth kinetics of ZnAl2O4 spinel in crystalline ZnO–amorphous Al2O3 bilayers prepared by atomic layer deposition
G Jáger, JJ Tomán, L Juhász, G Vecsei, Z Erdélyi, C Cserháti
Scripta Materialia 219, 114857, 2022
Impact of surface preparation prior to ALD-Al2O3 for PERC type solar cell
A Rothschild, J Toman, J Penaud, P Jaffrennou, P Choulat, E Cornagliotti, ...
Proc. 27th EUPVSEC, Frankfurt, Germany, 1974, 2012
3D phase diagrams and the thermal stability of two-component Janus nanoparticles: effects of size, average composition and temperature
A Taranovskyy, JJ Tomán, BD Gajdics, Z Erdélyi
Physical Chemistry Chemical Physics 23 (10), 6116-6127, 2021
Investigation of the role of vacancy sources and sinks on the Kirkendall-effect on the nanoscale
J Tomán, C Cserháti, Y Iguchi, Z Jánosfalvi, Z Erdélyi
Thin Solid Films 591, 363-367, 2015
Nanoparticle formation by spinodal decomposition in ion implanted samples
G Jáger, JJ Tomán, Z Erdélyi
Journal of Alloys and Compounds 910, 164781, 2022
Investigating Kirkendall Effect in Thin Films
JJ Tomán, Y Iguchi, B Gajdics
Defect and Diffusion Forum 369, 36-41, 2016
Spinodal decomposition in nanoparticles-experiments and simulation
BD Gajdics, JJ Tomán, F Misják, G Radnóczi, Z Erdélyi
Defect and Diffusion Forum 383, 89-95, 2018
Effect of stacking order in cylindrical geometry on the growth of ZnAl2O4 spinel phase
G Vecsei, G Jáger, L Juhász, JJ Tomán, VO Odhiambo, IM Szilágyi, ...
Materialia 30, 101819, 2023
The effect of self-organization during deposition on the segregation behaviour of Au in the Si-Ge-Au nano-multilayer thermoelectric generator system
S Gulyás, GL Katona, G Csiszár, JJ Tomán, C Cserháti, Z Erdélyi
Materials Characterization 209, 113699, 2024
Rolling cans—the answer
D Featonby, J Toman, B Herendi
Physics Education 52 (4), 047001, 2017
Size dependent spinodal decomposition in Cu-Ag nanoparticles
Z Erdélyi, B Gajdics, JJ Tomán, G Radnóczi, E Bokányi, F Misják
Reaktív diffúzió vizsgálata kontinuum modell segítségével
J Tomán
The system can't perform the operation now. Try again later.
Articles 1–20