| Dynamics and stability of premixed flames VV Bychkov, MA Liberman Physics reports 325 (4-5), 115-237, 2000 | 366 | 2000 |
| Physics of high-density Z-pinch plasmas MA Liberman, JS De Groot, A Toor, RB Spielman Springer Science & Business Media, 2012 | 272 | 2012 |
| 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 | 264 | 2010 |
| Physics of shock waves in gases and plasmas MA Liberman, AL Velikovich Springer-Verlag, 1986 | 176 | 1986 |
| 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 | 171 | 1996 |
| 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 | 148 | 2013 |
| Introduction to physics and chemistry of combustion: explosion, flame, detonation MA Liberman Springer Science & Business Media, 2010 | 143 | 2010 |
| Propagation of curved stationary flames in tubes VV Bychkov, SM Golberg, MA Liberman, LE Eriksson Physical Review E 54 (4), 3713, 1996 | 142 | 1996 |
| 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 | 125 | 2011 |
| 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 | 125 | 1988 |
| 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 | 115 | 2010 |
| 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 | 115 | 2004 |
| 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 | 111 | 2009 |
| 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 | 99 | 1988 |
| 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 | 94 | 2012 |
| Flame acceleration and DDT of hydrogen–oxygen gaseous mixtures in channels with no-slip walls MF Ivanov, AD Kiverin, MA Liberman International journal of hydrogen energy 36 (13), 7714-7727, 2011 | 90 | 2011 |
| 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 | 77 | 2011 |
| 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 | 77 | 2002 |
| 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 | 72 | 1994 |
| 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 | 68 | 2000 |
David SnokeUniversity of PittsburghZweryfikowany adres z pitt.edu
