[69] C.A.Downing, D.A.Stone, and M.E.Portnoi “Zero-energy states in graphene quantum dots and rings”, Phys. Rev. B 84 (15), 155437 (2011). [Link] [pdf]
[68] R.R.Hartmann, I.A.Shelykh, and M.E.Portnoi "Excitons in narrow-gap carbon nanotubes", Phys. Rev. B 84 (3), 035437 (2011). [Link] [pdf]
[67] 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. [Link] [pdf]
[66] 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. [Link] [pdf]
[65] R.R.Hartmann, N.J.Robinson, and M.E.Portnoi “Smooth electron waveguides in graphene”, Phys. Rev. B 81 (24), 245431 (2010). [Link] [pdf]
[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.M.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). [Link] [pdf]
[59] M.E.Portnoi, O.V.Kibis, 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, Dodrecht, 2008), pp. 81-93.
[58] 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), pp. 195-206 (2008). [Link] [pdf]
[57] 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), pp. 989-993 (2008). [Link]
[56] V.V.Nikolaev and M.E.Portnoi "Theory of excitonic Mott transition in quasi-two-dimensional systems", Superlattices and Microstructures 43(5-6), pp. 460-464 (2008).
[55] M.E.Portnoi, O.V.Kibis, M.Rosenau da Costa "Terahertz applications of carbon nanotubes", Superlattices and Microstructures 43(5-6), pp. 399-407 (2008). [Link] [pdf]
[54] O.V.Kibis and M.E.Portnoi "Superlattice properties of semiconductor nanohelices in a transverse electric field", Physica E 40(6), pp. 1899-1901 (2008).
[53] O.V.Kibis, M.Rosenau da Costa, and M.E.Portnoi "Carbon nanotubes as a basis for novel terahertz devices", Physica E 40(5), pp.1766-1768 (2008).
[52] O.V.Kibis, M. Rosenau da Costa and M.E.Portnoi "Generation of terahertz radiation by hot electrons in carbon nanotubes", Nano Letters 7 (11), 3414-3417 (2007). [Link] [pdf]
[51] 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).
[50] 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 (1), 013502 (2007).
[49] V.N.Golovach and M.E.Portnoi "Electron-phonon scattering at the intersection of two Landau levels", Phys. Rev. B 74 (8), 085321 (2006).
[48] V.V.Kruglyak, M.E.Portnoi and R.J.Hicken "Generation of femtosecond electromagnetic pulses at the nanoscale", Proc. SPIE 6328, 63280K (2006).
[47] M.E.Portnoi, O.V.Kibis and M. Rosenau da Costa "Terahertz emitters and detectors based on carbon nanotubes", Proc. SPIE 6328, 632805 (2006). [Link] [pdf]
[46] V.V.Kruglyak and M.E.Portnoi "Generation of femtosecond current pulses using the inverse magneto-optical Faraday effect", Tech. Phys. Lett. 31 (12), pp. 1047-1048 (2005).
[45] 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).
[44] 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).
[43] K.V.Kavokin, M.E.Portnoi, A.J.Matthews, A.Usher, J.Gething, D.A.Ritchie, M.Y.Simmons "Induced currents, frozen charges and the quantum Hall effect breakdown", Solid State Commun. 134, pp. 257-259 (2005).
[42] 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). [Link] [pdf]
[41] 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.B.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). [Link] [pdf]
[40] V.V.Nikolaev and M.E.Portnoi "Mott transition of spatially indirect excitons", Proc. SPIE 5509, pp. 187-193 (2004).
[39] O.V.Kibis, L. Hugget, D.G.W.Parfitt and M.E.Portnoi "Superlattice behaviour of carbon nanotubes in a transverse electric field", Proc. SPIE 5509, pp. 138-144 (2004).
[38] 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. [Link]
[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.B.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). [Link] [pdf]
[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, 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, 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, pp. 661-665 (2002).
[25] V.V.Nikolaev and M.E.Portnoi "Statistical mechanics of screened spatially indirect excitons", phys. stat. sol. (a) 190, 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, 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, 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, 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, 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, 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 "Levinsons 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 Levinsons 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 n=1/3 and n =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).
[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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