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Results: 1-14 |
Results: 14

Authors: Slepyan, GY Krapivin, NA Maksimenko, SA Lakhtakia, A Yevtushenko, OM
Citation: Gy. Slepyan et al., Scattering of electromagnetic waves by a semi-infinite carbon nanotube, AEU-INT J E, 55(4), 2001, pp. 273-280

Authors: Slepyan, GY Maksimenko, SA Kalosha, VP Gusakov, AV Herrmann, J
Citation: Gy. Slepyan et al., High-order harmonic generation by conduction electrons in carbon nanotube ropes - art. no. 053808, PHYS REV A, 6305(5), 2001, pp. 3808

Authors: Maksimenko, SA Slepyan, GY Kalosha, VP Ledentsov, NN Hoffmann, A Bimberg, D
Citation: Sa. Maksimenko et al., Size and shape effects in electromagnetic response of quantum dots and quantum dot arrays, MAT SCI E B, 82(1-3), 2001, pp. 215-217

Authors: Slepyan, GY Maksimenko, SA Lakhtakia, A Yevtushenko, OM
Citation: Gy. Slepyan et al., Electromagnetic response of carbon nanotubes and nanotube ropes, SYNTH METAL, 124(1), 2001, pp. 121-123

Authors: Lakhtakia, A Slepyan, GY Maksimenko, SA
Citation: A. Lakhtakia et al., Towards cholesteric absorbers for microwave frequencies, INT J INFRA, 22(7), 2001, pp. 999-1007

Authors: Slepyan, GY Maksimenko, SA Kalosha, VP Hoffmann, A Bimberg, D
Citation: Gy. Slepyan et al., Effective boundary conditions for planar quantum dot structures - art. no.125326, PHYS REV B, 6412(12), 2001, pp. 5326

Authors: Maksimenko, SA Slepyan, GY Kalosha, VP Maly, SV Ledentsov, NN Herrmann, J Hoffmann, A Bimberg, D Alferov, ZI
Citation: Sa. Maksimenko et al., Electromagnetic response of 3D arrays of quantum dots, J ELEC MAT, 29(5), 2000, pp. 494-503

Authors: Bass, FG Slepyan, AY Slepyan, GY
Citation: Fg. Bass et al., Etalon boundary-value problem technique for three-dimensional diffraction problems, ELECTROMAGN, 20(1), 2000, pp. 55-63

Authors: Maksimenko, SA Slepyan, GY Ledentsov, NN Kalosha, VP Hoffmann, A Bimberg, D
Citation: Sa. Maksimenko et al., Light confinement in a quantum dot, SEMIC SCI T, 15(6), 2000, pp. 491-496

Authors: Maksimenko, AS Slepyan, GY
Citation: As. Maksimenko et Gy. Slepyan, Negative differential conductivity in carbon nanotubes, PHYS REV L, 84(2), 2000, pp. 362-365

Authors: Slepyan, GY Maksimenko, SA Kalosha, VP Herrmann, J Campbell, EEB Hertel, IV
Citation: Gy. Slepyan et al., Highly efficient high-order harmonic generation by metallic carbon nanotubes, PHYS REV A, 60(2), 1999, pp. R777-R780

Authors: Slepyan, GY Maksimenko, SA Lakhtakia, A Yevtushenko, O Gusakov, AV
Citation: Gy. Slepyan et al., Electrodynamics of carbon nanotubes: Dynamic conductivity, impedance boundary conditions, and surface wave propagation, PHYS REV B, 60(24), 1999, pp. 17136-17149

Authors: Slepyan, GY Maksimenko, SA Kalosha, VP Herrmann, J Ledentsov, NN Krestnikov, IL Alferov, ZI Bimberg, D
Citation: Gy. Slepyan et al., Polarization splitting of the gain band in quantum wire and quantum dot arrays, PHYS REV B, 59(19), 1999, pp. 12275-12278

Authors: Lakhtakia, A Slepyan, GY Maksimenko, SA Gusakov, AV Yevtushenko, OM
Citation: A. Lakhtakia et al., Effective medium theory of the microwave and the infrared properties of composites with carbon nanotube inclusions, CARBON, 36(12), 1998, pp. 1833-1839
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