Publications of N. Molevich

A list of publications authored or co-authored by N. Molevich, derived from the SAO/NASA Astrophysics Data System (ADS). The number in brackets after each title indicates the number of citations that the paper has received.

Orcid ID: 0000-0001-5950-5394

List of publications ordered by citations
Number of papers: 103 (refereed: 69)
No. of citations: 511
First author papers: 20 (refereed: 15)

2025

1. Isentropic instability and dynamic substructures in the Orion Bar photodissociation region: Analytical and numerical insights [0]
   Pomelnikov, Ivan A., Riashchikov, Dmitrii S., Zavershinskii, Dmitrii I. & Molevich, Nonna E., A&A, 701, A59

2024

1. Magnetoacoustic waves in a partially ionized astrophysical plasma with the thermal misbalance: A two-fluid approach [3]
   Molevich, N. E., Pichugin, S. Yu. & Riashchikov, D. S., Physics of Plasmas, 31, 042115

2023

1. Impact of thermal misbalance on acoustic-gravity waves in the solar atmosphere [6]
   Riashchikov, D. S., Molevich, N. E. & Zavershinskii, D. I., MNRAS, 522, 572

2021

1. Longitudinal Plasma Motions Generated by Shear Alfvén Waves in Plasma with Thermal Misbalance [9]
   Belov, S., Vasheghani Farahani, S., Molevich, N. & Zavershinskii, D., Solar Physics, 296, 98
2. Dispersion of Slow Magnetoacoustic Waves in the Active Region Fan Loops Introduced by Thermal Misbalance [32]
   Belov, S. A., Molevich, N. E. & Zavershinskii, D. I., Solar Physics, 296, 122
3. Shock wave structures in an isentropically unstable heat-releasing gas [9]
   Molevich, Nonna & Riashchikov, Dmitrii, Physics of Fluids, 33, 076110
4. Suppression of Spatiotemporal Instabilities in Broad-Area Lasers with Pump Modulation by External Optical Injection [6]
   Yarunova, E. A., Krents, A. A., Molevich, N. E. & Anchikov, D. A., Bulletin of the Lebedev Physics Institute, 48, 55
5. Mixed Properties of Slow Magnetoacoustic and Entropy Waves in a Plasma with Heating/Cooling Misbalance [27]
   Zavershinskii, D., Kolotkov, D., Riashchikov, D. & Molevich, N., Solar Physics, 296, 96

2020

1. Thermal Misbalance Influence on the Nonlinear Shear Alfvén Waves Under Solar Atmosphere Conditions [10]
   Belov, S., Molevich, N. & Zavershinskii, D., Solar Physics, 295, 160
2. Optical extreme events in laser with optoelectronic feedback [0]
   Krents, Anton, Molevich, Nonna & Yarunova, Elizaveta, 2020 International Conference on Information Technology and Nanotechnology (ITNT), p. 22
3. Autowave Pulse in a Medium with the Heating/Cooling Misbalance and an Arbitrary Thermal Dispersion [5]
   Molevich, N. E. & Ryashchikov, D. S., Technical Physics Letters, 46, 637
4. Magnetoacoustic Waves in Partially Ionized Two-Fluid Heat-Releasing Plasma [5]
   Molevich, N. E., Pichugin, S. Yu. & Ryashchikov, D. S., Bulletin of the Lebedev Physics Institute, 47, 252
5. Suppression of instability of wide-aperture laser by external optical injection [0]
   Yarunova, E. A., Krents, A. A. & Molevich, N. E., 2020 International Conference Laser Optics (ICLO), p. 159
6. Nonlinear magnetoacoustic waves in plasma with isentropic thermal instability [23]
   Zavershinskii, D. I., Molevich, N. E., Riashchikov, D. S. & Belov, S. A., Physical Review E, 101, 043204

2019

1. Propagation of nonlinear Alfvén waves in heat-releasing plasma [9]
   Belov, S. A., Molevich, N. E. & Zavershinskii, D. I., Physica Scripta, 94, 105605
2. Alfvén Wave Amplification as a Result of Parametric Quasi-Resonant Interaction with Magnetoacoustic Waves in Heat-Releasing Isentropically Unstable Plasma [3]
   Belov, S. А., Molevich, N. E. & Zavershinskii, D. I., Russian Physics Journal, 62, 179
3. Suppression of transverse spatio-temporal instabilities in broad-area lasers emission by external optical injection [0]
   Krents, Anton A., Anchikov, Dmitriy A., Molevich, Nonna E. & Yarunova, Elizaveta A., Saratov Fall Meeting 2018: Laser Physics, Photonic Technologies, and Molecular Modeling (Editors: Derbov, Vladimir L.), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 11066, p. 1106606
4. Air flow control around a cylindrical model induced by a rotating electric arc discharge in an external magnetic field [1]
   Munhoz, D. S., Bityurin, V. A., Zavershinskii, I. P., Klimov, A. I., Moralev, I. A., Kazanskii, P. N., Molevich, N. E., Polyakov, L. B., Porfir'ev, D. P., Sugak, S. S. & Tolkunov, B. N., Journal of Physics Conference Series, Journal of Physics Conference Series, 1394, p. 012008
5. Stabilizing effect of injection in broad-area lasers [0]
   Yarunova, E. A., Krents, A. A., Molevich, N. E. & Anchikov, D. A., Journal of Physics Conference Series, Journal of Physics Conference Series, 1410, p. 012109
6. Stabilization of Broad-Area Laser Emission by Optical Injection [5]
   Yarunova, E. A., Krents, A. A., Molevich, N. E. & Anchikov, D. A., Bulletin of the Lebedev Physics Institute, 46, 130
7. Formation of quasi-periodic slow magnetoacoustic wave trains by the heating/cooling misbalance [69]
   Zavershinskii, D. I., Kolotkov, D. Y., Nakariakov, V. M., Molevich, N. E. & Ryashchikov, D. S., Physics of Plasmas, 26, 082113

2018

1. High effective heterogeneous plasma vortex reactor for production of heat energy and hydrogen [0]
   Belov, N. K., Zavershinskii, I. P., Klimov, A. I., Molevich, N. E., Porfiriev, D. P. & Tolkunov, B. N., Journal of Physics Conference Series, Journal of Physics Conference Series, 980, p. 012040
2. Amplification of Alfvén Waves due to Nonlinear Interaction with a Fast Magnetoacoustic Wave in Acoustically Active Conductive Media [6]
   Belov, S. A., Molevich, N. E. & Zavershinskii, D. I., Technical Physics Letters, 44, 199
3. Numerical simulation of an argon swirling flow in the presence of a DC discharge [0]
   Kazanskii, P. N., Klimov, A. I., Molevich, N. E., Porfiriev, D. P. & Zavershinskii, I. P., Journal of Physics Conference Series, Journal of Physics Conference Series, 980, p. 012010
4. Thermal Energy Release and Hydrogen Production in Swirl Heterogeneous Plasma-Chemical Reactor [0]
   Klimov, A., Kazanskii, P., Belov, N., Tolkunov, B., Zavershinskii, I. & Molevich, N., Journal of Physics Conference Series, Journal of Physics Conference Series, 1112, p. 012024
5. Numerical simulation of argon flow structure in plasma vortex reactor [0]
   Klimov, A. I., Kurushina, S. E., Molevich, N. E., Porfiriev, D. P. & Zavershinskii, I. P., Journal of Physics Conference Series, Journal of Physics Conference Series, 1112, p. 012020
6. Stabilization of broad-area class-B lasers by temporal pump modulation [0]
   Krents, A. A. & Molevich, N. E., 2018 International Conference Laser Optics (ICLO), p. 156
7. Dynamics of VCSEL subjected to external optical injection under triangular current modulation [0]
   Krents, A. A., Molevich, N. E. & Krestin, S. V., 2018 International Conference Laser Optics (ICLO), p. 176
8. Transverse patterns in broad-area lasers with anisotropy [0]
   Krents, A. A. & Molevich, N. E., Journal of Physics Conference Series, Journal of Physics Conference Series, 1096, p. 012107
9. Condensation Instability in Partially Ionized Plasma in a Magnetic Field [2]
   Molevich, N. E., Pichugin, S. Yu., Ryashchikov, D. S. & Zavershinskii, D. I., Bulletin of the Lebedev Physics Institute, 45, 267
10. Two-Dimensional Autowave Gas-Dynamic Structures in Isentropically Unstable Heat-Releasing Gas [4]
    Ryashchikov, D. S., Molevich, N. E. & Zavershinskii, D. I., Technical Physics Letters, 44, 1163
11. Impact of time-delayed feedback on optical field dynamics in cavity with nonlinear metamaterial [0]
    Yarunova, E. A., Krents, A. A. & Molevich, N. E., Journal of Physics Conference Series, Journal of Physics Conference Series, 1096, p. 012002
12. Dynamics of the optical field in the ring cavity with the nonlinear metamaterial and time-delayed feedback [0]
    Yarunova, E. A., Krents, A. A. & Molevich, N. E., 2018 International Conference Laser Optics (ICLO), p. 355
13. Dynamics of the optical field in the ring cavity with nonlinear metamaterial and time-delayed feedback [0]
    Yarunova, Elizaveta A., Krents, Anton A. & Molevich, Nonna E., Saratov Fall Meeting 2017: Laser Physics and Photonics XVIII; and Computational Biophysics and Analysis of Biomedical Data IV (Editors: Derbov, Vladimir L. & Postnov, Dmitry E.), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 10717, p. 107171B
14. Acoustically Induced Formation of Helical Structures in a Swirling Argon Flow in the Presence of Pulse Repetitive Capacity HF Discharge [0]
    Zavershinskii, I. P., Klimov, A. I., Molevich, N. E. & Sugak, S. S., High Temperature, 56, 454

2017

1. Spatially inhomogeneous pattern formation due to parametric modulation in large broad-area lasers [4]
   Anchikov, D. A., Krents, A. A. & Molevich, N. E., Computer Optics, 41, 363
2. Resonant excitation of transverse patterns in broad-area lasers by periodic temporal pump modulation [10]
   Krents, Anton A., Molevich, Nonna E. & Anchikov, Dmitry A., Journal of the Optical Society of America B Optical Physics, 34, 1733
3. Air flow control around a cylindrical model induced by a rotating electric arc discharge in an external magnetic field. Part II [1]
   Munhoz, D. S., Zavershinskii, I. P., Klimov, A. I., Kazanskii, P. N., Molevich, N. E., Moralev, I. A., Polyakov, L. B., Porfir'ev, D. P., Sugak, S. S. & Tolkunov, B. N., Journal of Technical Physics, 62, 1171
4. Stabilization of class-B broad-area laser emission by external optical injection [7]
   Pakhomov, A. V., Arkhipov, R. M. & Molevich, N. E., Journal of the Optical Society of America B Optical Physics, 34, 756
5. Condensation mode instability in a heat-releasing weakly ionized gas in a magnetic field [2]
   Zavershinskii, D. I., Molevich, N. E., Pichugin, S. Yu. & Ryashchikov, D. S., Bulletin of the Lebedev Physics Institute, 44, 298
6. The stability of swirling flows with a heat source [0]
   Zavershinskii, I. P., Klimov, A. I., Kurushina, S. E., Maksimov, V. V., Molevich, N. E. & Sugak, S. S., High Temperature, 55, 746

2016

1. Suppression of spatio-temporal instabilities in broad-area class-B lasers [8]
   Anchikov, D. A., Krents, A. A., Molevich, N. E. & Pakhomov, A. V., Computer Optics, 40, 31
2. Multi-frequency tori in wide-aperture lasers [2]
   Anchikov, D. A., Shakirov, A. P., Krents, A. A., Molevich, N. E. & Pakhomov, A. V., Physics of Wave Phenomena, 24, 108
3. Temperature-induced laser dynamics in wide-aperture VCSELs [0]
   Anchikov, D. A., Krents, A. A., Krestin, S. V., Molevich, N. E. & Pakhomov, A. V., Semiconductor Lasers and Laser Dynamics VII (Editors: Panajotov, Krassimir, Sciamanna, Marc, Valle, Angel & Michalzik, Rainer), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 9892, p. 989229
4. Streamlining of a cylinder with an electric arc rotating in a magnetic field [3]
   Bityurin, V. A., Zavershinskii, I. P., Klimov, A. I., Molevich, N. E., Moralev, I. A., Munhoz, D., Polyakov, L. A., Porfir'ev, D. P. & Sugak, S. S., High Temperature, 54, 599
5. Precessing vortex core in a swirling wake with heat release [10]
   Gorbunova, A., Klimov, A., Molevich, N., Moralev, I., Porfiriev, D., Sugak, S. & Zavershinskii, I., International Journal of Heat and Fluid Flow, 59, 100
6. Optical vortex array in broad-area laser [0]
   Krents, A. A., Anchikov, D. A., Molevich, N. E. & Pakhomov, A. V., 2016 International Conference Laser Optics (LO), p. 155
7. Spontaneous pattern formation in broad-area lasers [0]
   Krents, Anton, Anchikov, Dmitry, Molevich, Nonna & Pakhomov, Anton, Numerical Computations: Theory and Algorithms (NUMTA-2016), American Institute of Physics Conference Series, 1776, p. 090029
8. Output beam quality improvement in broad-area class-B lasers subject to optical injection [0]
   Pakhomov, A. V., Molevich, N. E., Krents, A. A. & Anchikov, D. A., 2016 International Conference Laser Optics (LO), p. 260
9. Stabilization of spatio-temporal instabilities in optically injected broad-area lasers [0]
   Pakhomov, A. V., Krents, A. A., Molevich, N. E. & Anchikov, D. A., Semiconductor Lasers and Laser Dynamics VII (Editors: Panajotov, Krassimir, Sciamanna, Marc, Valle, Angel & Michalzik, Rainer), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 9892, p. 989228
10. Intrinsic performance-limiting instabilities in two-level class-B broad-area lasers [15]
    Pakhomov, A. V., Molevich, N. E., Krents, A. A. & Anchikov, D. A., Optics Communications, 372, 14
11. Numerical simulation of precessing vortex core dumping by localized nonstationary heat source [0]
    Porfiriev, Denis, Gorbunova, Anastasiya, Zavershinsky, Igor, Sugak, Semen & Molevich, Nonna, Numerical Computations: Theory and Algorithms (NUMTA-2016), American Institute of Physics Conference Series, 1776, p. 090017

2015

1. Иccлeдoвaнie дiнaniki лaзepнogo iзлyчeнiya в зaвicinocTi oT TenпepaTypы в вepTikaльнo-iзлyчaющix пoлyпpoвoднikoвыx лaзepax [2]
   Anchikov, D. A., Krents, A. A., Krestin, S. V., Molevich, N. E. & Pakhomov, A. V., Computer Optics, 39, 721
2. Magnetoacoustic nonlinear waves in a heat-releasing plasma [0]
   Ryashchikov, D. S., Molevich, N. E. & Zavershinskiy, D. I., Recent Developments in Nonlinear Acoustics: 20th International Symposium on Nonlinear Acoustics including the 2nd International Sonic Boom Forum, American Institute of Physics Conference Series, 1685, p. 060002
3. O фopnipoвaнii cTpykTyp в нepaвнoвecныx cpeдax пpi peзoнaнcнon Tpёxвoлнoвon взainoдeйcTвii [1]
   Zavershinskii, I. P., Krasnoukhov, V. S., Molevich, N. E. & Sugak, S. S., Computer Optics, 39, 480
4. Parametrical amplification of Alfvén waves in heat-releasing ionized media with magnetoacoustic instability [10]
   Zavershinskiy, D. I. & Molevich, N. E., Astrophysics and Space Science, 358, 22

2014

1. Ordered vortex lattice in wide-aperture lasers [0]
   Anchikov, D. A., Krents, A. A., Molevich, N. E. & Pahomov, A. V., 2014 International Conference Laser Optics, p. 298
2. Spatio-Temporal Instabilities in Large Aperture Lasers [2]
   Anchikov, D. A., Krents, A. A., Molevich, N. E. & Pahomov, A. V., Computer Optics, 38, 681
3. Dynamic modes of wide-aperture laser systems above the second lasing threshold [5]
   Anchikov, D. A., Krents, A. A., Molevich, N. E. & Pakhomov, A. V., Bulletin of the Lebedev Physics Institute, 41, 226
4. Numerical Simulation of Vortical Structures in the RF Electromagnetic Field [0]
   Gorbunova, A. O., Zavershinskii, I. P., Molevich, N. E. & Porfirev, D. P., Computer Optics, 38, 643
5. Spiral waves in large aperture laser model [0]
   Krents, A. A., Anchikov, D. A., Molevich, N. E. & Pahomov, A. V., 2014 International Conference Laser Optics, p. 306
6. Amplifaction of Magnetoacoustic Waves in Optically Thin Plasma Medium with Thermal Instability [1]
   Zavershinskiy, D. I. & Molevich, N. E., Computer Optics, 38, 619
7. Alfvén wave amplification as a result of nonlinear interaction with a magnetoacoustic wave in an acoustically active conducting medium [7]
   Zavershinsky, D. I. & Molevich, N. E., Technical Physics Letters, 40, 701

2013

1. Numerical modeling of precessing vortex core in the presence of local heat sources [3]
   Zavershinskii, I. P., Kogan, E. Ya., Makaryan, V. G., Molevich, N. E., Porfir'ev, D. P. & Sugak, S. S., Technical Physics Letters, 39, 333
2. Parametrical Interaction of Codirectional Magnetoacoustic and Alfven Waves at Magnetoacoustic Instability [0]
   Zavershinsky, , D. I. & Molevich, N. E., Computer Optics, 37, 410
3. A magnetoacoustic autowave pulse in a heat-releasing ionized gaseous medium [13]
   Zavershinsky, D. I. & Molevich, N. E., Technical Physics Letters, 39, 676

2011

1. Pulsed H₂ - F₂ laser with simultaneous lasing on rotational and vibrational—rotational transitions [0]
   Molevich, N. E. & Pichugin, S. Yu, Quantum Electronics, 41, 427
2. Traveling self-sustained structures in interstellar clouds with the isentropic instability [26]
   Molevich, N. E., Zavershinsky, D. I., Galimov, R. N. & Makaryan, V. G., Astrophysics and Space Science, 334, 35
3. Structure of RF capacitive discharge in swirl airflow at atmospheric pressure [3]
   Zavershinskii, I. P., Klimov, A. I., Makaryan, V. G., Molevich, N. E., Moralev, I. A. & Porfir'ev, D. P., Technical Physics Letters, 37, 1120

2009

1. Structure and bifurcations of plane shock waves in a vibrationally excited gas with an external pumping source [6]
   Galimov, R. N. & Molevich, N. E., Fluid Dynamics, 44, 158
2. NONLINEAR OPTICAL PHENOMENA: Cascade of torus doubling bifurcations in a detuned laser [2]
   Krents, A. A. & Molevich, N. E., Quantum Electronics, 39, 751
3. CONTROL OF LASER RADIATION PARAMETERS: On the possible nature of high-frequency modulation of a CO laser pulse [0]
   Ventslavovich, T. E., Kazakevich, V. S., Krents, A. A., Krestin, S. V. & Molevich, N. E., Quantum Electronics, 39, 528
4. Features of the transverse discharge glow depending on the gas flow rate in a vortex chamber [2]
   Zavershinskii, I. P., Klimov, A. I., Makaryan, V. G., Molevich, N. E., Moralev, I. A. & Porfir'ev, D. P., Technical Physics Letters, 35, 1152
5. Rankine vortex evolution in a gas with heat release source [0]
   Zavershinskii, I. P., Klimov, A. I., Molevich, N. E. & Porfir'ev, D. P., Technical Physics Letters, 35, 344

2008

1. Autowaves in Relaxing Acoustically Active Nonequilibrium Media [0]
   Galimov, R. N. & Molevich, N. E., Nonlinear Acoustics - Fundamentals and Applications (Editors: Hedberg, Claes M. & Kari, Leif), American Institute of Physics Conference Series, 1022, p. 341
2. LASERS AND AMPLIFIERS: Emission of a pulsed purely rotational transition chemical H₂—F₂ laser [2]
   Molevich, N. E. & Pichugin, S. Yu, Quantum Electronics, 38, 330

2007

1. Stationary shock waves in nonequilibrium media [20]
   Makaryan, V. G. & Molevich, N. E., Plasma Sources Science Technology, 16, 124
2. Influence of a finite polarization relaxation time on the transverse structure of the optical field of a wide-aperture laser [0]
   Molevich, N. E. & Zaikin, A. P., Laser Optics 2006: Wavefront Transformation and Laser Beam Control (Editors: Soms, Leonid N.), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 6613, p. 661305

2006

1. Temperature profile at the front of a shock wave propagating in a vibrationally excited stationary nonequilibrium gas [2]
   Galimov, R. N., Makaryan, V. G. & Molevich, N. E., Journal of Technical Physics, 51, 1644
2. A Nonlinear Evolution of Wide Spectrum Acoustical Disturbances in Nonequilibrium Media with one Relaxation Process [1]
   Molevich, N. E. & Makaryan, V. G., Innovations in Nonlinear Acoustics (Editors: Atchley, Anthony A., Sparrow, Victor W. & Keolian, Robert M.), American Institute of Physics Conference Series, 838, p. 548

2005

1. Weak shock waves in negative-dispersion nonequilibrium media [5]
   Makaryan, V. G. & Molevich, N. E., Journal of Technical Physics, 50, 685

2004

1. Structure of a gasdynamic disturbance in a thermodynamically nonequilibrium medium with a power-law relaxation model [9]
   Makaryan, V. G. & Molevich, N. E., Fluid Dynamics, 39, 836
2. LASERS: Effect of the cross-relaxation rate on the transverse radiation dynamics of a wide-aperture laser [7]
   Zaikin, A. P. & Molevich, N. E., Quantum Electronics, 34, 731

2003

1. New stationary structures in an acoustically active medium [2]
   Makaryan, V. G. & Molevich, N. E., Technical Physics Letters, 29, 752
2. Sound velocity dispersion and second viscosity in media with nonequilibrium chemical reactions [16]
   Molevich, N. E., Acoustical Physics, 49, 189

2002

1. Nonstationary self-focusing of sound beams in a vibrationally excited molecular gas [9]
   Molevich, N. E., Acoustical Physics, 48, 209
2. NONLINEAR OPTICAL PHENOMENA: Periodic autowave structures in a wide-aperture laser with inertial phase nonlinearity [0]
   Zaikin, A. P., Kurguzkin, A. A. & Molevich, N. E., Quantum Electronics, 32, 722

2001

1. Excitation of the Opposite Acoustic Flows in Thermodynamically Nonequilibrium Gaseous Media [1]
   Molevich, N. E., Technical Physics Letters, 27, 900
2. Parametric Amplification of Vortex Waves in an Acoustically Active Medium [1]
   Molevich, N. E., Technical Physics Letters, 27, 596
3. NONLINEAR OPTICAL PHENOMENA: Green function for three-wave coupling problems [0]
   Molevich, N. E., Quantum Electronics, 31, 653
4. On the Length of a Discontinuity in an Acoustically Active Medium [0]
   Molevich, N. E., Journal of Technical Physics, 46, 1570
5. Amplification of Vortex and Temperature Waves in the Process of Induced Scattering of Sound in Thermodynamically Nonequilibrium Media [9]
   Molevich, N. E., High Temperature, 39, 884
6. Sound Amplification in Inhomogeneous Flows of Nonequilibrium Gas [17]
   Molevich, N. E., Acoustical Physics, 47, 102

2000

1. Effect of the Bulk Viscosity on the Sound Propagation in Nonequilibrium Suspensions of Microparticles in Gas [1]
   Molevich, N. E. & Nenashev, V. E., Acoustical Physics, 46, 450

1999

1. Transverse quasi-periodic structure of optical fields in a wide-aperture laser with a saturable absorber [0]
   Molevich, N. E. & Zaikin, A. P., Laser Optics 1998: Fundamental Problems of Laser Optics (Editors: Rosanov, Nikolay N.), Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series, 3685, p. 60
2. LASERS: Structure of the optical field of a wide-aperture laser with a saturable filter [3]
   Zaikin, A. P. & Molevich, N. E., Quantum Electronics, 29, 952
3. LASER FIELDS AND CAVITIES: Periodic self-wave structures in a wide-aperture laser with frequency detuning. II. Distributed model [3]
   Zaikin, A. P., Kurguzkin, A. A. & Molevich, N. E., Quantum Electronics, 29, 526
4. LASER FIELDS AND CAVITIES: Periodic self-wave structures in a wide-aperture laser with frequency detuning. I. Bifurcation analysis [3]
   Zaikin, A. P., Kurguzkin, A. A. & Molevich, N. E., Quantum Electronics, 29, 523

1997

1. CONTROL OF LASER RADIATION PARAMETERS.LASER DYNAMICS: Generation of optical fields with a periodic travelling intensity profile in a wide-aperture laser with a bleachable filter [9]
   Zaikin, A. P. & Molevich, N. E., Quantum Electronics, 27, 882

1986

1. Sound waves in a nonequilibrium molecular gas [5]
   Kogan, E. Ya. & Molevich, N. E., Soviet Physics Journal, 29, 547

1984

1. High power pure rotational laser due to vibrational excitation [2]
   Igoshin, V. I., Oraevskii, A. N. & Molevich, N. E., International Journal of Infrared and Millimeter Waves, 5, 403

1983

1. ARTICLES: Kinetic gasdynamic model and calculation of the characteristics of an H₂-HF gasdynamic laser utilizing purely rotational transitions [3]
   Igoshin, Valerii I., Molevich, N. E. & Oraevskiĭ, A. N., Quantum Electronics, 13, 463

1982

1. BRIEF COMMUNICATIONS: Thermal gasdynamic laser utilizing rotational transitions in hydrogen halides with energy transfer from H₂ molecules [2]
   Igoshin, Valerii I., Molevich, N. E. & Oraevskiĭ, A. A., Quantum Electronics, 12, 816