CURRICULUM VITAE

Dmitri A. Romanov, Ph.D.

Office address:

Department of Physics

Temple University

Philadelphia, PA 19122

Tel.: (215) 204-7652, FAX: (215) 204-5652

E-mail:

Web page:


EDUCATION:

Ph.D. Physics (Solid State)1986 Novosibirsk Institute of Semiconductor Physics,

USSR Academy of Sciences,

Dissertation: "Electronic properties of low-

dimensional systems with spatialinhomogeneities"

M.S. Physics (Low-Temperature)1980Novosibirsk State University,

summa cum laudeThesis: "Excitonic states near the dislocation"

B.S. Physics1978Novosibirsk State University

EXPERIENCE:

Temple University, Philadelphia, Pennsylvania

Professor (Research), Department of Physics 2014-present

Associate Professor (Research), Department of Physics 2003-2014

Wayne State University, Detroit, Michigan

Associate Professor (Research), Department of Electrical and Computer Engineering 2000-2003

Visiting Assistant Professor, Department of Electrical and Computer Engineering 1996-2000

Institute of Semiconductor Physics, Novosibirsk, Russia
Senior Research Scientist 1988-1996
Junior Research Scientist 1985-1988

Trainee Researcher 1980-1982

ADJUNCT FACULTY AND VISITING POSITIONS:

Oakland University (Michigan) 2000

Novosibirsk State University, Russia 1992-1996, 1987-1988

The Hebrew University of Jerusalem, Israel1994-1995, 1993-1994

Universidade de Republica, Montevideo, Uruguay 1994

Novosibirsk State Pedagogical Institute, Russia1989-1991, 1986-1987

RESEARCH INTERESTS:

Physical mechanisms of strong-field quantum control in complex systems:

  • Control of femtosecond laser filamentation and nonlinear optics of filament wake channels;
  • Spectral control of coherent broadband light generated via dynamic Rabi cycling;
  • Strong-field control of electronic and nuclear dynamics in molecules and molecular ions;
  • Dimensionality reduction in multi-parameter control and detection spaces;
  • Femtosecond four-wave mixing in spatially inhomogeneous systems.

Linear and nonlinear light scattering in turbid media as applied to noninvasive blood characterization.

Dispersion law engineering and dynamics of quasiparticles with engineered dispersion:

  • Mechanics of particles with W-type dispersion;
  • Edge magnetic states in systems with non-monotonic potential profile;
  • Electronic and optoelectronic properties of fullerene nanotubes;
  • Spin-orbital manipulation in quantum wires and in quantum wells of curved geometry.

Electronic and optical properties of nanostructures based on novel materials:

  • Electron localization in polarization electron pockets in thin films of nitride semiconductors;
  • Bow-tie optical phonon modes in quantum dots of non-cubic semiconductors;
  • Cascade phonon transformations and energy dissipation in quantum wells;
  • Novel materials for photodetectors and solar cells.

COURSES TAUGHT:

Graduate:

Mathematical Physics I and II,Quantum Mechanics I and II,Coherent Light-Matter Interaction,

Introduction to VLSI Systems, Mathematical Methods in Engineering,Physical Kinetics,

Nuclear Physics, Basics of Solid State Theory for Engineers.

Undergraduate:

Classical Electromagnetism, Elementary Classical Physics,Introduction to Astronomy,

Electronic Materials and Devices,Quantum Mechanics for Computer Engineers,

Solid State Theory,Analytical Mechanics,Quantum Mechanics.

COURSE DEVELOPMENT:

Coherent Light-Matter Interaction (Temple University, with R.J. Levis);

Introduction to VLSI Systems (Wayne State University);

Mathematical Methods in Engineering (Wayne State University);

Quantum Mechanics for Computer Engineers (Novosibirsk State University, with I. Ginzburg);

Solid State Theory (Novosibirsk State University, with A.V. Chaplik);

Nuclear Physics (Novosibirsk State Pedagogical Institute);

Basics of Solid State Theory for Engineers (Universidade de Republica).

GRANTS AND AWARDS:

DTRA, Filament-Based Raman Detection of Radioactive Materials, 2012-2015, $468,000 (Co-PI).

ONR, Multidimentional Detection of Explosive Devices, 2010-2012, $900,000 (Co-PI).

ARO-JIEDDO, Shaped Intense Laser Detection and Surveillance, 2007-2012, $5,000,000 (Co-PI).

ARO, Laser Pulse Shaping for Remote Detection of Explosives, 2006-2007, $250,000 (Co-PI).

DARPA (AFOSR), Photonic reagents: The Production of Cyclic Ozone, 2004-2007, $700,000 (Co-PI).

Wayne State University, instructional equipment grant, 2001, $30,000.

Battelle, Population-dependent anharmonic decay of optical phonons and modification of carrier relaxation and interactions in optoelectronic and electronic devices, 1997-1998, $25,000.

Wayne State University, Small Research Grant, 1998, $1,000.

Program “Russian Universities”, research grant, 1996-1997.

Travel grants: NSF, 2001; Soros Foundation, 1995, 1996; Russian Foundation for Basic Research, 1995, 1996; Materials Research Society, 1996; NATO, 1996; USSR Academy of Sciences, 1987.

Awards of the Institute of Semiconductor Physics for best scientific publication, 1985, 1987, 1993, 1995, 1996, and 1998.

Award of All-Union Competition for Best Master Thesis, 1980.

Award of All-Union Students Conference on Progress in Science and Technology, 1980.

Academic Excellence Award, Novosibirsk State University, 1978.

PROFESSIONAL SOCIETIES:

IEEE (Senior Member), American Physical Society,Russian Physical Society,

Siberian Society for Promotion of Sciences.

ACADEMIC AND ADMINISTRATIVE SERVICES:

ECE Ph.D. Preliminary Examination Committees (Wayne State University), 1998-2002;

Institute of Scientific Computing (Wayne State University);

Editorial Committee (Novosibirsk State University), 1982;

Referee for NSF;

Special Referee for CRDF;

Journal Referee for Physical Review Letters, Scientific Reports, Physical Review A, Physical Review E, IEEE Transactions, Journal of Applied Physics,Journal of the Optical Society of America, Modern Physics Letters,Theoretical Chemistry Accounts, Journal of Experimental and Theoretical Physics, Physics of the Solid State;

Reviewer in the journal “Physics” (Russian Physics Abstracts), 1989-1996;

Member of Organizing Committee of 2nd All-Union Symposium on Low-Dimensional Systems, 1988;

Member of Organizing Committee of 10th All-Union Conference on Semiconductor Theory, 1980.

RECENT INVITED TALKS AND SEMINARS (for 10 years):

Basic Research Innovation Collaboration Center, Arlington, VA, 2015: “Higher Order Nonlinearities in Laser Filamentation”;

University of Arizona, Tucson, AZ, 2014: “Effects of Ionization on Optical Nonlinearities”;

College of Optical Sciences, University of Arizona, Tucson, AZ, 2014: “Microscopic Mechanisms of Delayed Nonlinearities Invoked by Femtosecond Laser Filamentation”;

Basic Research Innovation Collaboration Center, Arlington, VA, 2013: “Higher Order Nonlinearities in Laser Filamentation”;

Symposium on Frontiers in Computational Science, Philadelphia, 2013: “Medium Response Dynamics in Femtosecond Laser Filamentation: Modeling and Simulation”;

Department of Chemical Physics, Weizmann Institute of Science, Israel, 2013: “Microscopic underpinnings of nonlinear optical response modifications associated with femtosecond laser filaments”;

Department of Applied Physics, The Hebrew University of Jerusalem, Israel, 2013: “Prolegomena to control of transient processes in femtosecond laser filaments and filament wake channels”;

Workshop on Mathematical Modeling and Experimental Validation of Ultrafast Nonlinear Light-Matter Coupling Associated with Filamentation in Transparent Media, Tucson, AZ, 2012: “Ionization-Grating-Induced Nonlinear Phase Accumulation in Spectrally-Resolved Transient Birefrigence Measurements”;

School on Theory and Mathematical Modeling of Ultrashort Pulse Propagation, Tucson, AZ, 2011: “Multielectron excitation of molecules by strong-field laser pulses and local spectrum broadening”;

Department of Physics, Temple University, Philadelphia, 2011: “Strong-Field Transient Optics of Laser-Induced Micro-Plasma: Foundations of Control”;

Pacifichem: The International Chemical Congress of Pacific Basin Societies, Honolulu, 2010: “Optical Manifestations of Ultrafast Electronic-State Evolution in Micro-Plasma Channels Generated by Strong-Field Femtosecond Laser Pulses”;

Photonics West, 2008: “New prospects for noninvasive blood monitoring based on effect of RBC aggregation”;

Department of Physics and Astronomy, SUNY at Stony Brook, 2007: ”Large Polyatomic Molecules Driven by Strong Ultrashort Laser Pulses: Dynamics and Statistics";

Ultrafast Chemistry and Physics 2006 (APS Satellite Meeting), Philadelphia, 2006: “Rapid Proton Transfer Mediated by a Strong Laser Field”;

Department of Physics, Lehigh University, Bethlehem, PA, 2004: “Mechanisms of Strong-Field Laser Control of Molecular Excitation and Fragmentation”.

MOST IMPORTANT RESEARCH PAPERS:

Ultraviolet surprise: Efficient soft x-ray high-harmonic generation in multiply ionized plasmas, Science, 350 (6265), pp. 1225-1231 (2015) (with D. Popmintchev, C. Hernandez-Garcia, F. Dollar, C. Mancuso, J.A. Perez-Hernandez, M.-C. Chen, A. Hankla, X. Gao, B. Shim, A.L. Gaeta, M. Tarazkar, R.J. Levis, J.A. Gaffney, M. Foord, S.B. Libby, A. Jaron-Becker, A. Becker, L. Plaja, M.M. Murnane, H.C. Kapteyn, T. Popmintchev).

Ionization-Grating-Induced Nonlinear Phase Accumulation in Spectrally-Resolved Transient Birefringence Measurements at 400 nm, Phys. Rev. Letters, 109(6), pp. 065003 (1-4) (2012) (with J.H.Odhner, E.T. McCole, J.K. Wahlstrand, H.M. Milchberg, and R.J. Levis).

Self-Shortening Dynamics Measured along a Femtosecond Laser Filament in Air,Phys. Rev. Letters, 105(12), pp. 125001 (1-4) (2010) (with J.H. Odhner and R.J. Levis).

Observation of Broadband Time-Dependent Rabi Shifting in Microplasmas, Phys. Rev. Letters, 103 (20), pp.205001-(1-4) (2009) (with A. Filin, R. Compton, and R.J. Levis).

Rovibrational Wave-Packet Dispersion during Femtosecond Laser Filamentation in Air, Phys. Rev. Letters, 103 (7), 075005(1-4) (2009) (with J.H. Odhner and R.J. Levis).

Impact-Ionization Cooling in Laser-Induced Plasma Filaments, Phys. Rev. Letters, 102 (15), 155004(1-4) (2009) (with A. Filin, R. Compton, and R.J. Levis).

Rapid Proton Transfer Mediated by a Strong Laser Field, Phys. Rev. Letters, 96 (16), 163002(1-4) (2006) (with A.N.Markevitch, S.M. Smith, and R.J. Levis).

Coulomb Explosion of Large Polyatomic Molecules Assisted by Nonadiabatic Charge Localization, Phys. Rev. Letters 92 (6), 063001(1-4) (2004) (with A.N. Markevitch, S.M. Smith, and R.J. Levis).

Nonadiabatic Dynamics of Polyatomic Molecules and Ions in Strong Laser Fields, Phys. Rev. A, 68(1),pp. 011402(R)(1-4) (2003) (with A.N. Markevitch, S.M. Smith, H.B. Schlegel, M.Yu.Ivanov, and R.J.Levis).

Nonlinear Electron Transport Effects in a Chiral Carbon Nanotube, Phys. Rev. Letters, 79(6), pp.1102-1105 (1997) (with O.M. Yevtushenko, G.Ya. Slepyan, S.A. Maksimenko, and A.Lakhtakia).

PROFESSIONAL PUBLICATIONS: (total 177)

Textbook

Modern Advanced Mathematics for Engineers, Wiley, New York, 2001 (with V.V. Mitin and M.P.Polis).

Monograph

Molecules and clusters in strong laser fields, in Analysis and Control of Ultrafast Photoinduced Reactions, O. Kühn, L. Wöste (eds.), Springer Series in Chemical Physics Vol.87, Springer, Heidelberg, 2007 (with C.P.Schulz, T. Burnus, A. Castro, E.K.U. Gross, A. Heidenreich, I.V.Hertel, J. Jortner, T.Laarmann, I.Last, R.J. Levis, M.A.L. Marques, and A. Saenz).

Papers in peer-reviewed journals

  1. Conserving Coherence and Storing Energy during Internal Conversion: Photoinduced Dynamics of cis- and trans-Azobenzene Radical Cations, JACS, 121(45), pp. 8642-8651 (2017) (with K. Munkerup, T. Bohinski, A.B. Stephansen, R.J. Levis, and T.I. Sølling).
  1. Picosecond ionization dynamics in femtosecond filaments at high pressures, Phys. Rev. A 95(1), pp. 013412 (1-5) (2017) (with X. Gao, G. Patwardhan, S. Schrauth, D. Zhu, T. Popmintchev, H.C. Kapteyn, M.M. Murnane, R.J. Levis, and A.L. Gaeta).
  1. Nonlinear optical responses of multiply ionized noble gases: Dispersion and spin multiplicity effects, Phys. Rev. A 94(1), pp. 012514 (1-11) (2016) (with M. Tarazkar and R. J. Levis).
  1. Modification of chirped laser pulses via delayed rotational nonlinearity, J. Chem. Phys. 144(12), pp. 124313 (1-9) (2016) (with J.H. Odhner and R.J. Levis).
  1. Direct growth of CdSe semiconductor quantum dots in glass matrix by femtosecond laser beam, Applied Physics Letters, 108(6) pp. 063112-(1-4) (2016) (with G. Bell, A.I. Filin and R.J. Levis).
  1. Ultraviolet surprise: Efficient soft x-ray high-harmonic generation in multiply ionized plasmas, Science, 350 (6265), pp. 1225-1231 (2015) (with D. Popmintchev, C. Hernandez-Garcia, F. Dollar, C. Mancuso, J.A. Perez-Hernandez, M.-C. Chen, A. Hankla, X. Gao, B. Shim, A.L. Gaeta, M. Tarazkar, R.J. Levis, J.A. Gaffney, M. Foord, S.B. Libby, A. Jaron-Becker, A. Becker, L. Plaja, M.M. Murnane, H.C. Kapteyn, T. Popmintchev).
  1. Filament-Assisted Impulsive Raman Spectroscopy of Ozone and Nitrogen Oxides, J. Phys. Chem. A, 119(35), pp. 9272−9280 (2015) (with E.T. McCole Dlugosz, R.Fisher, A. Filin, J.H. Odhner, and R.J. Levis).
  1. Controlling the dissociation dynamics of acetophenone radical cation through excitation of ground and excited state wavepackets, J. Phys. B 48(16) pp. 164002 (1-12) (2015) (with K. Moore Tibbetts, M. Tarazkar, T. Bohinski, S. Matsika, and R.J. Levis).
  1. Theoretical study of second-order hyperpolarizability for nitrogen radical cation, J. Phys. B, 48(9)pp.094019(1-10)(2015) (with M. Tarazkar and R.J. Levis).
  1. Formation of carbon nanospheres via ultrashort pulse laser irradiation of methane, Materials Chem. and Phys., 156, pp. 47-53 (2015) (with S.L. Shumlas, K. Moore Tibbetts, J.H. Odhner, R.J. Levis, and D.R. Strongin).
  1. Control of spectral interference patterns in broad Rabi sidebands toward quasi-comb structures, Optics Letters, 40(5) pp. 717-720 (2015) (with A.I. Filin and R.J. Levis).
  1. W-dispersion particles in repulsive potentials: Quasibound states and their lifetime, Phys. Rev. A 91(2), pp. 022126 (1-6) (2015) (with L.D. Shvartsman).
  1. High-order nonlinear refractive indices for He, Ne, Kr, and Xe atoms, Phys. Rev. A 90(6), pp. 062514 (1-10) (2014) (with M. Tarazkar and R. J. Levis).
  1. Strong Field Adiabatic Ionization Prepares a Launch State for Coherent Control, J. Phys. Chem. Lett., 5(24), pp. 4305−4309 (2014) (with T. Bohinski, K. Moore Tibbetts, M. Tarazkar, S. Matsika, and R.J. Levis).
  1. Radical cation spectroscopy of substituted alkyl phenyl ketones via tunnel ionization, Chem. Phys., 442, pp. 81-85 (2014) (with T. Bohinski, K. Moore Tibbetts, K. Munkerup, M. Tarazkar, S. Matsika, and R.J. Levis).
  1. Higher-order nonlinearity of refractive index: The case of argon, J. Chem. Phys.140(21), pp. 214316 (1-10) (2014) (with M. Tarazkar and R.J. Levis).
  1. Measurement of Ionic Resonances in Alkyl Phenyl Ketone Cations via Infrared Strong Field Mass Spectrometry, J. Phys. Chem. 117(47), pp. 12374-12381 (2013) (with T. Bohinski, K. Moore Tibbetts, M. Tarazkar, S. Matsika, and R.J. Levis).
  1. Evolution of laser microfilaments in the wake of a femtosecond driving pulse, Phys. Rev. A, 87(6), pp. 063410(8) (2013) (with R.J. Levis).
  1. Spectral-to-Temporal Amplitude Mapping Polarization Spectroscopy of Rotational Transients, J.Phys. Chem. A, 117(29), pp. 6354-6361 (2013) (with E.T. McCole, J.H. Odhner, and R.J. Levis).
  1. Measurement of an Electronic Resonance in a Ground-State, Gas-Phase Acetophenone Cation via Strong-Field Mass Spectrometry, J. Phys. Chem. Letters, 4(10), pp. 1587-1591 (2013) (with T.Bohinski, K. Moore Tibbetts, M. Tarazkar, S. Matsika, and R.J. Levis).
  1. Decoherence of Rabi Oscillations in Laser-Generated Micro-Plasmas, Phys. Rev. A, 87(2), pp. 023419 (1-4) (2013) (with G. Heck, A. Filin, and R.J. Levis).
  1. Post-ionization medium evolution in a laser filament: A uniquely non-plasma response, Phys. Rev. E, 86(4) pp. 046408(5) (2012) (with R.J. Levis).
  1. Ionization-Grating-Induced Nonlinear Phase Accumulation in Spectrally-Resolved Transient Birefringence Measurements at 400 nm, Phys. Rev. Letters, 109(6), pp. 065003 (1-4) (2012) (with J.H. Odhner, E.T. McCole, J.K. Wahlstrand, H.M. Milchberg, and R.J. Levis).
  1. Spatial-spectral distribution of Rabi radiation generated in plasma, Optics Letters,36(16), pp.3224-3226 (2011) (with G. Heck, R. Compton, A. Filin, M. Plewicki, and R.J. Levis).
  1. Dynamic Rabi sidebands in laser-generated microplasmas: Tunability and control, Phys. Rev. A, 83(5), pp. 053423 (1-8) (2011) (with R. Compton, A. Filin, and R.J. Levis).
  1. Self-Shortening Dynamics Measured along a Femtosecond Laser Filament in Air, Phys. Rev. Lett.,105(12), pp. 125001(1-4) (2010) (with J.H. Odhner and R.J. Levis).
  1. Origin of the Spectral Coherence in Dynamically-Broadened Rabi Sidebands, Optics Letters,35(5), pp. 778-780(2010) (with M. Plewicki, R. Compton, A. Filin, and R.J. Levis).
  1. Numerical Bound State Electron Dynamics of Carbon Dioxide in the Strong-Field Regime, J. Phys. Chem. A, 114(7), pp.2576-2587 (2010) (with S.M. Smith, X. Li, J. Sonk, H.B. Schlegel, and R.J.Levis).
  1. Filament-based stimulated Raman spectroscopy, in Nonlinear frequency generation and conversion:materials, devices, and applications IX, edited by Peter E. Powers, Proceedings of SPIE Vol. 7582 (SPIE, Bellingham, WA 2010) 75820M (with J.H. Odhner and R.J. Levis).
  1. Tunable broadband optical generation via giant Rabi shifting in micro-plasmas, in Nonlinear frequency generation and conversion:materials, devices, and applications IX, edited by Peter E. Powers, Proceedings of SPIE Vol. 7582 (SPIE, Bellingham, WA 2010) 75820D (with R. Compton, A. Filin, and R.J. Levis).
  1. Dynamics of Strong-Field Laser-Induced Micro-Plasma Formation in Noble Gases, Phys. Rev. A, 81(3), pp. 033403(1-8)(2010) (with R. Compton, A. Filin, and R.J. Levis).
  1. Observing the Transition from Stark-Shifted, Strong-Field Resonance to Nonadiabatic Excitation, J. Phys. Chem. C, 114 (12), pp. 5645-5651 (2010) (with S.M. Smith, G. Heck, H.B. Schlegel, and R.J. Levis).
  1. Observation of Broadband Time-Dependent Rabi Shifting in Microplasmas, Phys. Rev. Letters, 103(20), pp.205001 (1-4) (2009) (with R. Compton, A. Filin, and R.J. Levis).
  1. RovibrationalWave-Packet Dispersion during Femtosecond Laser Filamentation in Air, Phys. Rev. Lett., 103 (7), 075005 (1-4) (2009) (with J.H. Odhner and R.J. Levis).
  1. Impact-Ionization Cooling in Laser-Induced Plasma Filaments, Phys. Rev. Lett., 102 (15), pp.155004 (1-4) (2009) (with A. Filin, R. Compton, and R.J. Levis).
  1. Adaptive reshaping of objects in (multiparameter) Hilbert space for enhanced detection and classification: an application of receiver operating curve statistics to laser-based massspectroscopy, J. Opt. Soc. Am. A, 25, No. 5, pp. 1039-1050 (2008) (with D. Healy, J. Brady, and R.J. Levis).
  1. Elucidating the spectral and temporal contributions of the resonant and nonresonant responses to femtosecond coherent anti-Stokes Raman scattering, J. Chem. Phys. 128, pp. 154517 (1-5)(2008) (with R.Compton, A. Filin, and R.J. Levis).
  1. New prospects for noninvasive blood monitoring based on effect of RBC aggregation, in Complex Dynamics and Fluctuations in Biomedical Photonics V, edited by Valery V. Tuchin, Lihong V. Wang, Proceedings of SPIE Vol. 6855 (SPIE, Bellingham, WA 2008) 68550C (with .L.D.Shvartsman and I. Fine).
  1. Dimensionality reduction in nonlinear optical datasets via diffusion mapping: case study of short-pulse second harmonic generation, in Imaging, Manipulation, and Analysis of Biomolecules, Cells, and Tissues VI, edited by Daniel L. Farkas, Dan V. Nicolau, Robert C. Leif, Proceedings of SPIE Vol. 6859 (SPIE, Bellingham, WA 2008) 68591I (with S. Smith, J. Brady, and R.J. Levis).
  1. Phase Matching in fs BOXCARS, Optics Letters 32, pp. 3161-3163 (2007) (with R.Compton, A.Filin, and R.J. Levis).
  1. Numerical simulation of non-adiabatic electron excitation in the strong-field regime: 3. Polyacene neutrals and cations, J. Phys. Chem. A, 111, 6920-6932 (2007) (with S.M. Smith, X. Li, A.N.Markevitch, R.J. Levis, and H.B. Schlegel).
  1. Probing strong-field electron-nuclear dynamics of polyatomic molecules using proton motion, Phys. Rev. A 75, No. 1, pp. 053402 (1-11) (2007) (with A.N.Markevitch, S.M. Smith, and R.J.Levis).
  1. Control goal selection through anticorrelation analysis in the detection space,J. Phys. Chem. A, 110 (36), 10558-10563 (2006) (with H.T. Tran and R.J. Levis).
  1. Rapid Proton Transfer Mediated by a Strong Laser Field, Phys. Rev. Lett., 96 (16), pp. 163002 (14) (2006) (with A.N.Markevitch, S.M. Smith, and R.J. Levis).
  1. Numerical Simulation Non-Adiabatic Electron Excitation in the Strong Field Regime: 2. Linear Polyene Cations, J. Phys. Chem. A, 109 (46): 10527-10534 (2005) (with S.M. Smith, X. Li, A.N. Markevitch, R.J. Levis, and H.B. Schlegel).
  1. A Numerical Simulation of Nonadiabatic Electron Excitation in the Strong Field Regime: Linear Polyenes, J. Phys. Chem. A 109 (23), pp. 5176-5185 (2005) (with S.M. Smith, X. Li, A.N. Markevitch, R.J. Levis, and H.B. Schlegel).
  1. A Time-Dependent Hartree-Fock Approach for Studying the Electronic Optical Response of Molecules in Intense Fields, Phys. Chem. Chem. Phys. 7 (2), pp. 233-239 (2005) (with Xiaosong Li, S.M. Smith, A.N.Markevitch, R.J. Levis, and H.B. Schlegel).
  1. Static and Dynamic Polarizabilities of Conjugated Molecules and Their Cations, J. Phys. Chem. A 108, pp. 11063-11072 (2004) (with S.M. Smith, A.N.Markevitch, Xiaosong Li, R.J. Levis, and H.B. Schlegel).
  1. Coulomb Explosion of Large Polyatomic Molecules Assisted by Nonadiabatic Charge Localization, Phys. Rev. Letters 92,No 6, pp. 063001 (1-4) (2004) (with A.N. Markevitch, S.M.Smith, and R.J. Levis).
  1. Sequential Nonadiabatic Excitation of Large Molecules and Ions Driven by Strong Laser Fields, Phys. Rev. A 69, No. 1, pp. 013401 (1-13) (2004) (with A.N.Markevitch, S.M. Smith, H.B. Schlegel,M.Yu. Ivanov,and R.J. Levis).
  1. Nonadiabatic Dynamics of Polyatomic Molecules and Ions in Strong Laser Fields, Phys. Rev. A 68, No 1, pp. 011402(R) (1-4) (2003) (with A.N. Markevitch, S.M. Smith, H.B.Schlegel, M.Yu.Ivanov, and R.J. Levis).
  1. Polar Interface Vibration in GaN/ALN Quantum Dots: Essential Effects of Crystal Anisotropy, Phys. Rev. B 66, pp.115321 (1-6) (2002) (with V. Mitin and M. Stroscio).

38Optical Phonons in GaN/AlN Quantum Dots: Leaky Modes, Physica B 316-317, pp. 359-361 (2002) (with V. Mitin and M. Stroscio).

37Polar Surface Vibration Strips on GaN/AlN Quantum Dots and Their Interaction with Confined Electrons, Physica E 12, pp. 491-494 (2002) (with V. Mitin and M. Stroscio).

  1. Dynamics of Non-Equilibrium Short-Wave-Length Phonons in Semiconductor Heterostructures, VLSI Design, 13, No1-4, pp. 447-451 (2001)(with J. Eizenkop and V. V. Mitin).
  1. Low-Dimensional Electrons in Curvilinear Nanostructures, Phys. Usp., 43, No. 3, pp.283-285 (2000) (with A.V. Chaplik, L.I. Magarill).
  1. Effects of Stimulated Optical Phonon Decay on Hot Carriers in GaAs, Physica B 272, pp. 422-424 (1999) (with B.A. Glavin, V.V. Mitin, and M.A. Stroscio).
  1. Stimulated Decay of Nonselectively Pumped Optical Phonons in GaAs, Phys. Rev. B, 60, No 7, pp.4771-4777 (1999) (with B.A. Glavin, V.V. Mitin, and M.A. Stroscio).
  1. Stimulated Optical Phonon Decay in GaAs/GaAlAs Heterostructures, Microelectronic Engineering, 47, pp. 361-363 (1999) (with V.V. Mitin, B.A. Glavin, and M.A. Stroscio).
  1. Manifestation of the Sign of the Spin-Orbit Interaction in Quantum Cylinder Conductance, Superlattices & Microstructures, 23, No 6, pp. 1231-1235 (1998) (with A.V. Chaplik and L.I.Magarill).
  1. Electronic Structure of (n,0) Zig-Zag Carbon Nanotubules: Cluster and Crystal Approach, J. Phys. Chemistry A, 102, No 6, pp. 975-981 (1998) (with L.G. Bulusheva, A.V. Okotrub, and D.Tomanek).
  1. The Effect of a Nonmonotonic Potential Profile on Edge Magnetic States, Semiconductors, 32, No 9, pp. 970-974 (1998) (with E.B. Gorokhov, S.A. Studenikin, V.A. Tkachenko, and O.A. Tkachenko).
  1. Ballistic Transport in Quantum Cylinders, Superlattices & Microstructures, 23, No 6, pp. 12271230 (1998) (with A.V. Chaplik and L.I. Magarill).
  1. Electronic Structure of Carbon Nanotubes, Phys. Low-Dim. Struct., 3/4, pp. 107-133 (1998) (with L.G.Bulusheva, A.V. Okotrub, and D. Tomanek).
  1. Hall Conductivity of 2D Electrons on a Curved Surface, Phys. Low-Dim. Struct., 1/2, pp. 17-22 (1998) (with A.V. Chaplik and L.I. Magarill).
  1. Ballistic Transport and Spin-Orbit Interaction of Two- Dimensional Electrons on a Cylindrical Surface, J. Exp. Theor. Phys., 86, No 4, pp. 771-779 (1998) (with A.V. Chaplik and L.I.Magarill).
  1. Effect of Curvature of a 2D Electron Sheet on the Ballistic Conductance and Spin-Orbit Interaction, Physica B, 249-251, pp. 377-382 (1998) (with A.V. Chaplik and L.I. Magarill).
  1. Absorption of Electromagnetic Field by Electrons on Oriented Curved Surfaces, Phys. Low-Dim. Struct., 12, pp. 227-231 (1997) (with A.V. Chaplik and L.I. Magarill).
  1. Nonlinear Electron Transport Effects in a Chiral Carbon Nanotube, Phys. Rev. Letters, 79, No 6, pp.1102-1105 (1997) (with O.M. Yevtushenko, G.Ya. Slepyan, S.A. Maksimenko, and A.Lakhtakia).
  1. Intervalley Conversion at a Boundary: Microscopic Model, Phys. Solid State, 39, No 5, pp.745749 (1997) (with L.S. Braginskii).
  1. Negative Differential Resistivity of a Nonideal Schottky Barrier based on Indium Arsenide, Semiconductors, 31, No 3, pp. 308-314 (1997) (with A.V. Kalameitsev, A.P. Kovchavtsev, G.L.Kuryshev, K.O. Postnikov, and I.M. Subbotin).
  1. Kinetics of Two-Dimensional Electrons on a Curved Surface, JETP Letters 64, No 6, pp. 460-466 (1996) (with L.I. Magarill and A.V. Chaplik).
  1. The Electron Energy Spectrum and Persistent Current in an Elliptic Quantum Ring, J. Exp. Theor. Phys., 83, No 2, pp. 361-367 (1996) (with L.I. Magarill and A.V. Chaplik).
  1. Electrophysical Properties of Helicoidal Carbon Nanotubules Provided by the Extended Electron States, in: Recent Advances in Chemistry and Physics of Fullerenes and Related Materials: Vol.III, R. Ruoff, K. Kadish, eds., pp. 959-967 (1996) (with A.V. Okotrub and L.G.Bulusheva).
  1. Synthesis, Structure and Electrical Properties of Carbonaceous Nanoparticles, Molecular Materials, 7, No 1-4, pp. 75-80 (1996) (with A.V. Okotrub, Yu.V. Shevtsov et al.).
  1. Consented Electron Transmittance of the Crystal Interface, Lithuanian Journal of Physics, 35, pp.372376 (1995) (with L.S. Braginsky).
  1. Frame Carbon Compounds - from Fullerenes to Nanotubules, Phys. of Low-Dimens. Struct., 8/9, pp.139-157 (1995) (with A.V. Okotrub, Yu.G. Shevtsov, et al.).
  1. Structural Resonance in an Electron Penetration Through the Boundary of Crystalline Solids, Phys. Solid State, 37, No 7, pp. 1154-1156 (1995) (with L.S. Braginsky).
  1. Electron-Photon Interaction in Fullerene Tubules with Chiral Symmetry, Phys. Solid State, 37, No1, pp. 69-70 (1995) (with O.V. Kibis).
  1. Mechanics of Particles with Nonmonotonic Dispersion Law, Phys. Rev. A, 50, No 3, pp. R1969R1972 (1994) (with L.D. Shvartsman and J.E. Golub).
  1. Origin of Linear Terms in a Quasitwo-Dimensional Dispersion Law, Phys. Solid State, 35, No 6, pp.717-719 (1993).
  1. Magnetocontrolled Quantum States in Helicoidal Nanotubules, Phys. Letters A, 178, No 3/4, pp.335337 (1993) (with O.V. Kibis).
  1. Spin-Orbital Splitting in Cylindrical Quantum Wires, JETP Letters, 55, No 12, pp. 738-741 (1992).
  1. Anomalous Magnetoresistance of Two-Dimensional Electrons in a Lateral Superlattice, Sov. Phys. JETP, 63, No 4, pp. 805-808 (1986) (with A.V. Chaplik).
  1. Electron States in Periodic Dislocation Networks in Semiconductors, phys. stat. sol. (b), 133, pp.645653 (1986) (with V.M. Nabutovskii).
  1. Electron States near a Curved Interface, Sov. Phys. JETP, 63, No 1, pp. 133-136 (1986) (with V.M.Nabutovskii).
  1. Weak-Field Magnetoconductance Oscillations Caused by Magnetic Surface Levels, Solid State Commun., 53, No 8, pp. 677-679 (1985) (with L.D. Shvartsman).
  1. Electronic States on dielectric Drops, Sov. J. Low Temp. Phys., 11, No 5, pp. 277-281 (1985) (with V.M.Nabutovskii).
  1. Anomalies in Static Magnetoresistance due to Magnetic Surface Levels, JETP Letters, 42, No 1, pp.10-12 (1985) (with L.D. Shvartsman).
  1. Localized States of Electron near the Surface of Low-Frequency Polarizable Dielectric, Poverchnost, No9, pp. 18-20 (1983) (with V.M. Nabutovskii, in Russian).

Publications in Conference Proceedings