Nikolas Provatas
Nikolas Provatas
Professor of Materials Physics, McGill University
Verified email at - Homepage
Cited by
Cited by
Phase-field methods in materials science and engineering
N Provatas, K Elder
John Wiley & Sons, 2011
Phase-field crystal modeling and classical density functional theory of freezing
KR Elder, N Provatas, J Berry, P Stefanovic, M Grant
Physical Review B 75 (6), 064107, 2007
Efficient computation of dendritic microstructures using adaptive mesh refinement
N Provatas, N Goldenfeld, J Dantzig
Physical Review Letters 80 (15), 3308, 1998
Adaptive mesh refinement computation of solidification microstructures using dynamic data structures
N Provatas, N Goldenfeld, J Dantzig
Journal of computational physics 148 (1), 265-290, 1999
Phase-field crystals with elastic interactions
P Stefanovic, M Haataja, N Provatas
Physical review letters 96 (22), 225504, 2006
Sharp interface limits of phase-field models
KR Elder, M Grant, N Provatas, JM Kosterlitz
Physical Review E 64 (2), 021604, 2001
Free energy functionals for efficient phase field crystal modeling of structural phase transformations
M Greenwood, N Provatas, J Rottler
arXiv preprint arXiv:1002.3185, 2010
Phase field crystal study of deformation and plasticity in nanocrystalline materials
P Stefanovic, M Haataja, N Provatas
Physical Review E 80 (4), 046107, 2009
Phase-field simulation of solidification morphology in laser powder deposition of Ti–Nb alloys
V Fallah, M Amoorezaei, N Provatas, SF Corbin, A Khajepour
Acta Materialia 60 (4), 1633-1646, 2012
Using the phase-field crystal method in the multi-scale modeling of microstructure evolution
N Provatas, JA Dantzig, B Athreya, P Chan, P Stefanovic, N Goldenfeld, ...
Jom 59, 83-90, 2007
Kinetic roughening in slow combustion of paper
J Maunuksela, M Myllys, OP Kähkönen, J Timonen, N Provatas, MJ Alava, ...
Physical review letters 79 (8), 1515, 1997
Amplitude expansion of the binary phase-field-crystal model
KR Elder, ZF Huang, N Provatas
Physical Review E 81 (1), 011602, 2010
Cluster evolution mechanisms during aging in Al–Mg–Si alloys
V Fallah, B Langelier, N Ofori-Opoku, B Raeisinia, N Provatas, S Esmaeili
Acta Materialia 103, 290-300, 2016
Phase-field-crystal methodology for modeling of structural transformations
M Greenwood, J Rottler, N Provatas
Physical review e 83 (3), 031601, 2011
Phase-field-crystal dynamics for binary systems: Derivation from dynamical density functional theory, amplitude equation formalism, and applications to alloy heterostructures
ZF Huang, KR Elder, N Provatas
Physical Review E 82 (2), 021605, 2010
The significance of spatial length scales and solute segregation in strengthening rapid solidification microstructures of 316L stainless steel
T Pinomaa, M Lindroos, M Walbrühl, N Provatas, A Laukkanen
Acta Materialia 184, 1-16, 2020
Modeling structural transformations in binary alloys with phase field crystals
M Greenwood, N Ofori-Opoku, J Rottler, N Provatas
Physical Review B 84 (6), 064104, 2011
A quantitative multi-phase field model of polycrystalline alloy solidification
N Ofori-Opoku, N Provatas
Acta Materialia 58 (6), 2155-2164, 2010
Multiscale modeling of solidification: phase-field methods to adaptive mesh refinement
N Provatas, M Greenwood, B Athreya, N Goldenfeld, J Dantzig
International Journal of Modern Physics B 19 (31), 4525-4565, 2005
Atomic-scale pathway of early-stage precipitation in Al–Mg–Si alloys
V Fallah, A Korinek, N Ofori-Opoku, B Raeisinia, M Gallerneault, ...
Acta materialia 82, 457-467, 2015
The system can't perform the operation now. Try again later.
Articles 1–20