M. A. LIBERMAN
M. A. LIBERMAN
Nordic Institute for Theoretical Physics (NORDITA) Stockholm University
Verified email at nordita.org - Homepage
Title
Cited by
Cited by
Year
Dynamics and stability of premixed flames
VV Bychkov, MA Liberman
Physics reports 325 (4-5), 115-237, 2000
3072000
Physics of high-density Z-pinch plasmas
MA Liberman, JS De Groot, A Toor, RB Spielman
Springer Science & Business Media, 2012
2312012
Deflagration-to-detonation transition in highly reactive combustible mixtures
MA Liberman, MF Ivanov, AD Kiverin, MS Kuznetsov, AA Chukalovsky, ...
Acta Astronautica 67 (7-8), 688-701, 2010
1652010
Exact solution for a hydrogen atom in a magnetic field of arbitrary strength
YP Kravchenko, MA Liberman, B Johansson
Physical Review A 54 (1), 287, 1996
1561996
Physics of shock waves in gases and plasmas
MA Liberman, AL Velikovich
Springer Verlag Springer Series on Electrophysics 19, 1986
1541986
Propagation of curved stationary flames in tubes
VV Bychkov, SM Golberg, MA Liberman, LE Eriksson
Physical Review E 54 (4), 3713, 1996
1311996
Introduction to physics and chemistry of combustion: explosion, flame, detonation
MA Liberman
Springer Science & Business Media, 2010
1152010
Compression of ultrahigh magnetic fields in a gas‐puff Z pinch
FS Felber, MM Malley, FJ Wessel, MK Matzen, MA Palmer, RB Spielman, ...
The Physics of fluids 31 (7), 2053-2056, 1988
1071988
Hydrogen–oxygen flame acceleration and deflagration-to-detonation transition in three-dimensional rectangular channels with no-slip walls
MF Ivanov, AD Kiverin, IS Yakovenko, MA Liberman
International journal of hydrogen energy 38 (36), 16427-16440, 2013
892013
Hydrogen-oxygen flame acceleration and transition to detonation in channels with no-slip walls for a detailed chemical reaction model
MF Ivanov, AD Kiverin, MA Liberman
Physical Review E 83 (5), 056313, 2011
872011
Formation of the preheated zone ahead of a propagating flame and the mechanism underlying the deflagration-to-detonation transition
MA Liberman, M Kuznetsov, A Ivanov, I Matsukov
Physics Letters A 373 (5), 501-510, 2009
862009
Self-acceleration and fractal structure of outward freely propagating flames
MA Liberman, MF Ivanov, OE Peil, DM Valiev, LE Eriksson
Physics of fluids 16 (7), 2476-2482, 2004
852004
Ultrahigh magnetic fields produced in a gas‐puff Z pinch
FS Felber, FJ Wessel, NC Wild, HU Rahman, A Fisher, CM Fowler, ...
Journal of applied physics 64 (8), 3831-3844, 1988
851988
Polarizability, correlation energy, and dielectric liquid phase of Bose-Einstein condensate of two-dimensional excitons in a strong perpendicular magnetic field
SA Moskalenko, MA Liberman, DW Snoke, VV Boţan
Physical Review B 66 (24), 245316, 2002
802002
Regimes of chemical reaction waves initiated by nonuniform initial conditions for detailed chemical reaction models
MA Liberman, AD Kiverin, MF Ivanov
Physical review E 85 (5), 056312, 2012
692012
Self‐consistent model of the Rayleigh–Taylor instability in ablatively accelerated laser plasma
VV Bychkov, SM Golberg, MA Liberman
Physics of plasmas 1 (9), 2976-2986, 1994
671994
Experimental study of the preheat zone formation and deflagration to detonation transition
M Kuznetsov, M Liberman, I Matsukov
Combustion science and technology 182 (11-12), 1628-1644, 2010
632010
Numerical studies of flames in wide tubes: stability limits of curved stationary flames
OY Travnikov, VV Bychkov, MA Liberman
Physical Review E 61 (1), 468, 2000
612000
On detonation initiation by a temperature gradient for a detailed chemical reaction models
MA Liberman, AD Kiverin, MF Ivanov
Physics Letters A 375 (17), 1803-1808, 2011
592011
Stability of a planar flame front in the slow-combustion regime
MA Liberman, VV Bychkov, SM Golberg, DL Book
Physical Review E 49 (1), 445, 1994
591994
The system can't perform the operation now. Try again later.
Articles 1–20