Publications
PAPERS IN REFEREED JOURNALS:
[66] R.R.Hartmann, I.A.Shelykh, and M.E.Portnoi “Excitons in narrow-gap carbon nanotubes”, Phys. Rev. B 84 035437 (2011).
[65] R.R.Hartmann, N.J.Robinson, and M.E.Portnoi “Smooth electron waveguides in graphene”, Phys. Rev. B 81 (24) 245431 (2010).
[64] K.G.Batrakov, O.V.Kibis, P.P.Kuzhir, S.A.Maksimenko, M.Rosenau da Costa, and M.E.Portnoi “Mechanisms of terahertz emission from carbon nanotubes”, Physica B 405 (14), 3054-3056 (2010).
[63] K.G.Batrakov, O.V.Kibis, P.P.Kuzhir, M.Rosenau da Costa, and M.E.Portnoi “Terahertz processes in carbon nanotubes”, Journal of Nanophotonics 4, 041665 (2010).
[62] M.E.Portnoi, M.Rosenau da Costa, O.V.Kibis, and I.A.Shelykh “Magnetically controlled THz absorption and emission in carbon nanotubes”, International Journal of Modern Physics B 23(12/13), 2846-2850 (2009).
[61] M.Rosenau da Costa, O.V. Kibis, and M.E.Portnoi “Carbon nanotubes as a basis for terahertz emitters and detectors”, Microelectronics J. 40(4-5), 776-778 (2009).
[60] A.Fischer, V.L.Campo, Jr., M.E.Portnoi, and R.A.Roemer “Exciton storage in a nanoscale Aharonov-Bohm ring with electric field tuning”, Phys. Rev. Lett. 102(9), 096405 (2009).
[59] H.Ouerdane, R.Varache, M.E.Portnoi, and I.Galbraith “Photon emission induced by elastic exciton-carrier scattering in semiconductor quantum wells”, Eur. Phys. J. B 65 (2), 195-206 (2008).
[58] K.V.Kavokin and M.E.Portnoi “Spin-orbit terms in multi-subband electron systems: A bridge between bulk and two-dimensional Hamiltonians”, Semiconductors 42 (8), 989-993 (2008).
[57] V.V.Nikolaev and M.E.Portnoi “Theory of excitonic Mott transition in quasi-two-dimensional systems”, Superlattices and Microstructures 43 (5-6), 460-464 (2008).
[56] M.E.Portnoi, O.V.Kibis, M.Rosenau da Costa “Terahertz applications of carbon nanotubes”, Superlattices and Microstructures 43 (5-6), 399-407 (2008).
[55] O.V.Kibis and M.E.Portnoi “Superlattice properties of semiconductor nanohelices in a transverse electric field”, Physica E 40 (6), 1899-1901 (2008).
[54] O.V.Kibis, M.Rosenau da Costa, and M.E.Portnoi “Carbon nanotubes as a basis for novel terahertz devices”, Physica E 40 (5), 1766-1768 (2008).
[53] O.V.Kibis, M.Rosenau da Costa and M.E.Portnoi “Generation of terahertz radiation by hot electrons in carbon nanotubes”, Nano Lett. 7(11), 3414-3417 (2007).
[52] O.V.Kibis and M.E.Portnoi “Semiconductor nanohelix in electric field: A superlattice of the new type”, Tech. Phys. Lett. 33(10), pp. 878-880 (2007).
[51] V.V.Kruglyak, M.E.Portnoi and R.J.Hicken “Use of the Faraday optical transformer for ultrafast magnetization reversal of nanomagnets”, Journal of Nanophotonics 1, 013502 (2007).
[50] V.N.Golovach and M.E.Portnoi “Electron-phonon scattering at the intersection of two Landau levels”, Phys. Rev. B 74(11), 085321 (2006).
[49] V.V.Kruglyak, M.E.Portnoi and R.J.Hicken “Generation of femtosecond electromagnetic pulses at the nanoscale”, Proceedings of SPIE 6328, 63280K (2006).
[48] M.E.Portnoi, O.V.Kibis, M.Rosenau da Costa “Terahertz emitters and detectors based on carbon nanotubes”, Proceedings of SPIE 6328, 632805 (2006).
[47] V.V.Kruglyak and M.E.Portnoi “Generation of femtosecond current pulses using the inverse Faraday magneto-optical effect”, Tech. Phys. Lett. 31(12), pp. 1047-1048 (2005).
[46] O.V.Kibis and M.E.Portnoi “Carbon nanotubes: A new type of emitter in the terahertz range”, Tech. Phys. Lett. 31(8), pp. 671-672 (2005).
[45] O.V.Kibis, S.V.Malevannyy, L.Huggett, D.G.W.Parfitt, M.E.Portnoi “Superlattice properties of helical nanostructures in a transverse electric field”, Electromagnetics 25(5), pp. 425-435 (2005).
[44] K.V.Kavokin, M.E.Portnoi, A.J.Matthews, A.Usher, J.D.Gething, D.A.Ritchie, and M.Y.Simmons “Induced currents, frozen charges and the quantum Hall effect breakdown”, Solid State Commun. 134(4), pp. 257-259 (2005).
[43] O.V.Kibis, D.G.W.Parfitt, and M.E.Portnoi “Superlattice properties of carbon nanotubes in a transverse electric field”, Phys. Rev. B 71(3), 035411 (2005).
[42] A.J.Matthews, K.V.Kavokin, A.Usher, M.E.Portnoi, M.Zhu, J.D.Gething, M.Elliot, W.G.Herrenden-Harker, K.Phillips, D.A.Ritchie, M.Y.Simmons, C.B.Sorensen, O.P.Hansen, O.A.Mironov, M.Myronov, D.R.Leadley, and M.Henini “Temperature dependence of the breakdown of the quantum Hall effect studied by induced currents”, Phys. Rev. B 70(7), 075317 (2004).
[41] A.J.Matthews, K.V.Kavokin, A.Usher, M.E.Portnoi, J.D.Gething, M.Zhu and D.A.Ritchie “High-current breakdown of the quantum Hall effect”, International Journal of Modern Physics B 18(27-29), 3593-3596 (2004).
[40] J.D.Gething, A.J.Matthews, A.Usher, M.E.Portnoi, K.V.Kavokin and M.Henini “Breakdown of the quantum Hall effects in hole systems at high induced currents”, International Journal of Modern Physics B 18(27-29), 3537-3540 (2004).
[39] V.V.Nikolaev and M.E.Portnoi “Mott transition of spatially indirect excitons”, Proceedings of SPIE 5509, pp. 187-193 (2004).
[38] O.V.Kibis, L.Huggett, D.G.W.Parfitt and M.E.Portnoi “Superlattice behaviour of carbon nanotubes in a transverse electric field”, Proceedings of SPIE 5509, pp. 138-144 (2004).
[37] D.G.W.Parfitt and M.E.Portnoi “Exact solutions for a few-particle exciton in the fractional quantum Hall regime”, phys. stat. sol. (c) 1(6), pp. 1363-1366 (2004).
[36] V.V.Nikolaev and M.E.Portnoi “Theory of excitonic Mott transition in double quantum wells”, phys. stat. sol. (c) 1(6), pp. 1357-1362 (2004).
[35] A.J.Matthews, K.V.Kavokin, A.Usher, M.E.Portnoi, M.Zhu, J.D.Gething, M.Elliot, W.G.Herrenden-Harker, K.Phillips, D.A.Ritchie, M.Y.Simmons, C.B. Sorensen, O.P.Hansen, O.A.Mironov, M.Myronov, D.R.Leadley, and M. Henini “Temperature-dependent high-current breakdown of the quantum Hall effect”, Physica E 22, pp. 201-204 (2004).
[34] D.G.W.Parfitt and M.E.Portnoi “Few-particle anyon exciton: Exact solutions”, Int. J. Nanoscience 2 (6), pp. 461-468 (2003).
[33] D.G.W.Parfitt and M.E.Portnoi “Anyon exciton revisited: Exact solutions for a few-particle system”, Phys. Rev. B 68, 035306 (2003).
[32] V.M.Apalkov and M.E.Portnoi “Phonon-assisted recombination of intra-subband magnetoexcitons and two-phonon dissociation of magnetorotons in the quantum Hall regime”, Physica E 17C, pp. 217-219 (2003).
[31] D.G.W.Parfitt and M.E.Portnoi “Two-dimensional exciton revisited”, Physica E 17C, pp. 212-214 (2003).
[30] D.G.W. Parfitt and M.E.Portnoi “Two-dimensional exciton: Unexpected beauty”, phys. stat. sol. (a) 195 (3), pp. 596-599 (2003).
[29] V.M.Apalkov and M.E.Portnoi “Two-subband system in quantizing magnetic field: Probing many-body gap by non-equilibrium phonons”, Physica E 15(3), pp. 202-210 (2002).
[28] D.G.W.Parfitt and M.E.Portnoi “Two-dimensional hydrogen atom revisited”, Journal of Mathematical Physics 43(10), 4681-4691 (2002).
[27] V.M.Apalkov and M.E.Portnoi “Two-phonon scattering of magnetorotons in fractional quantum Hall liquids”, Phys. Rev. B 66(12), 121303(R) (2002).
[26] V.M.Apalkov and M.E.Portnoi “Phonon-assisted luminescence of magnetoexcitons in semiconductor quantum wells”, phys. stat. sol. (a) 190 (3), pp. 661-665 (2002).
[25] V.V.Nikolaev and M.E.Portnoi “Statistical mechanics of screened spatially indirect excitons”, phys. stat. sol. (a) 190(3), pp. 655-660 (2002).
[24] V.M.Apalkov and M.E.Portnoi “Tuning gaps and phases of a two-subband system in a quantizing magnetic field”, Phys. Rev. B 65(12), 125310 (2002).
[23] V.V.Nikolaev and M.E.Portnoi “Optical nonlinearities in a microcavity with InGaN quantum wells: Self-assembled quantum dots approach”, phys. stat. sol. (a) 190 (1), pp. 193-198 (2002).
[22] V.V.Nikolaev and M.E.Portnoi “Ionization degree of electron-hole plasma in GaN/AlGaN quantum wells with strong internal electric fields”, phys. stat. sol. (a) 190 (1), pp. 113-119 (2002).
[21] V.M.Apalkov and M.E.Portnoi “Electron-phonon interaction in a two-subband quasi-2D system in a quantizing magnetic field”, Physica E 12(1-4), pp. 470-473 (2002).
[20] V.V.Nikolaev, M.E.Portnoi, and I.Eliashevich “Photon recycling white light emitting diode based on InGaN multiple quantum well heterostructure”, phys. stat. sol. (a) 183(1), pp.177-182 (2001).
[19] M.E.Portnoi and I.Galbraith “Exciton/free-carrier plasma in GaN-based quantum wells: scattering and screening”, phys. stat. sol. (a) 183(1), pp. 87-90 (2001).
[18] M.E.Portnoi and I.Galbraith “Ionization degree of the electron-hole plasma in semiconductor quantum wells”, Phys. Rev. B 60(8), pp. 5570-5581 (1999).
[17] M.E.Portnoi and I.Galbraith “Levinson’s theorem and scattering phase shift contributions to the partition function of interacting gases in two dimensions”, Phys. Rev. B 58(7), pp. 3963-3968 (1998).
[16] M.E.Portnoi and I.Galbraith “Screened excitons in wide-gap semiconductors and quantum wells”, Journal of Crystal Growth 184/185, pp.676-681 (1998).
[15] M.E.Portnoi and I.Galbraith “Variable-phase method and Levinson’s theorem in two dimensions: Application to a screened Coulomb potential”, Solid State Commun. 103(6), pp.325-329 (1997).
[14] M.E.Portnoi and E.I.Rashba “Theory of anyon excitons: Relation to excitons of =1/3 and =2/3 incompressible liquids”, Phys. Rev. B 54(19), pp. 13791-13806 (1996).
[13] M.E.Portnoi and E.I.Rashba “Four-particle two-dimensional magnetoexciton.” Il Nuovo Cimento 17D, pp. 1669-1673 (1995).
[12] M.E.Portnoi and E.I.Rashba “Four-particle anyon exciton: Boson approximation”, Modern Physics Letters B 9(2), pp.123-133 (1995).
[11] E.I.Rashba, V.M.Apalkov, and M.E.Portnoi “Spectroscopy of the Fractional Quantum Hall Effect: Manifestation of fractional charges”, Journal of Luminescence 60&61, pp.782-785 (1994).
[10] E.I.Rashba and M.E.Portnoi “Three-Particle Anyon Excitons”, JETP Lett. 57(11), pp.733-738 (1993).
[9] E.I.Rashba and M.E.Portnoi “Anyon Excitons”, Phys. Rev. Lett. 70(21), pp.3315-3318 (1993).
[8] M.E.Portnoi “Depolarization of the photoluminescence as a result of emission of optical phonons by hot electrons in quantum wells”, Semiconductors 27(3), pp.294-295 (1993).
[7] E.A.Avrutin, I.E.Chebunina, I.A.Eliashevich, S.A.Gurevich, M.E.Portnoi, and G.E.Shtengel “TE and TM optical gains in AlGaAs/GaAs single-quantum-well lasers.” Semiconductor Science and Technology 8(1), pp.80-87 (1993).
[6] V.I.Perel' and M.E.Portnoi “Influence of a magnetic field on the photoluminescence emitted by hot electrons in quantum wells”, Sov. Phys. Semicond. 26(12), pp.1185-1187 (1992).
[5] M.E.Portnoi “Anisotropy of linear polarization of photoluminescence emitted by hot electrons in quantum wells”, Sov. Phys. Semicond. 25(12), pp.1294-1298 (1991).
[4] I.A.Merkulov, V.I.Perel' and M.E.Portnoi “Momentum alignment and spin orientation of photoexcited electrons in quantum wells.” Sov. Phys. - JETP 72(4), pp.669-675 (1991) [usually cited as Zh. Eksp. Teor. Fiz. 99, 1202-1214 (1991)].
[3] I.A.Merkulov, V.I.Perel', and M.E.Portnoi “Theory of optical orientation and alignment in quantum wells”, Superlattices and Microstructures 10(3), pp.371-374 (1991).
[2] E.A.Avrutin and M.E.Portnoi “Estimate of the lifetimes of nonequilibrium carriers in a semiconductor irradiated with heavy ions”, Sov. Phys. Semicond. 22(8), pp.968-970 (1988).
[1] M.E.Portnoi “Scattering of two-dimensional particles by a short-range potential”, Sov. Tech. Phys. Lett. 14(7), pp.547-548 (1988).
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BOOK:
[b1] R.R. Hartmann and M.E. Portnoi, Optoelectronic Properties of Carbon-based Nanostructures: Steering electrons in graphene by electromagnetic fields (LAP LAMBERT Academic Publishing, Saarbrücken, 2011), ISBN-10: 3844328580; ISBN-13: 978-3844328585.
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BOOK CHAPTERS:
[ch3] A.M.Nemilentsau, G.Ya.Slepyan, S.A.Maksimenko, O.V.Kibis, and M.E.Portnoi “Terahertz radiation from carbon nanotubes” in The Handbook of Nanophysics, Vol. 4: Nanotubes and Nanowires, edited by K.D.Sattler (CRC Press, New York, 2010), Chapter 5, pp. 5.1-5.16.
[ch2] M.E.Portnoi, O.V.Kibis and M.Rosenau da Costa “Prospective terahertz applications of carbon nanotubes” in Smart Materials for Energy, Communications and Security, edited by I.A.Luk'yanchuk and D.Messane, NATO Science for Peace and Security Series B - Physics and Biophysics (Springer, Dordrecht, 2008), pp. 81-93.
[ch1] D.G.W.Parfitt and M.E.Portnoi “Exactly-solvable problems for two-dimensional excitons” in Mathematical Physics Frontiers, edited by C.V.Benton (Nova Science Publishers, NY, 2004), pp. 1-66.
(see also http://xxx.lanl.gov/abs/cond-mat/0410095). 