Publications 11
Публикации за предыдущий период
[1] |
A.V. Nemykin, A.S. Bereza, and D.A. Shapiro. Perturbation theory in the problem of light scattering by a dielectric body. JETP. Letters, 108(9):577-581, 2018. [ DOI ] |
[2] |
E.V. Sedov, A.A. Redyuk, M.P. Fedoruk, A.A. Gelash, L.L. Frumin, and S.K. Turitsyn. Soliton content in the standard optical OFDM signal. Opt. Lett., 43(24):5985–5988, 2018. [ DOI ] |
[3] |
E.G. Shapiro and D.A. Shapiro. Optimization of the capacity of a fiber communication line with nonlinear memory. Optoelectronics, Instrumentation and Data Processing, 54(4):411–418, 2018. [ DOI ] |
[4] |
E.G. Shapiro and D.A. Shapiro. Suppression of nonlinear interaction in a high-speed optical channel with dispersion compensation. Quantum Electronics, 48(12):1157–1159, 2018. [ DOI ] |
[5] |
A. Tusnin and D. Shapiro. Influence of higher modes on plasmonic force in a narrow slit. OSA Continuum, 1(2):384–391, 2018. [ DOI ] |
[6] |
A.S. Bereza, A.V. Nemykin, S.V. Perminov, L.L. Frumin, and D.A. Shapiro. Light scattering by dielectric bodies in the Born approximation. Phys. Rev. A, 95(6):063839, 2017. [ DOI ] |
[7] |
Leonid L. Frumin, Anton V. Nemykin, and David A. Shapiro. Frustration of the total reflection by a hidden scatterer. Appl. Opt., 56(3):649–653, 2017. [ DOI ] |
[8] |
L.L. Frumin, A.A. Gelash, and S.K. Turitsyn. New approaches to coding information using inverse scattering transform. Phys. Rev. Lett., 118(22):223901, 2017. [ DOI ] |
[9] |
L.L. Frumin, A.K. Tusnin, O.V. Belai, and D.A. Shapiro. Effects of imperfect angular adjustment on plasmonic force. Opt. Express, 25(25):31801–31809, 2017. [ DOI ] |
[10] |
E.G. Shapiro and D.A. Shapiro. Influence of nonlinear interaction on the capacity of an optical dispersion-compensated channel. Quantum Electronics, 47(11):1049–1052, 2017. [ DOI ] |
[11] |
S.K. Turitsyn, J.E. Prilepsky, S.T. Le, S. Wahls, L.L. Frumin, M. Kamalian, and S.A. Derevyanko. Nonlinear Fourier transform for optical data processing and transmission: advances and perspectives. Optica, 4(3):307–322, 2017. [ DOI ] |
[12] |
S.R. Abdullina, A.A. Vlasov, I.A. Lobach, O.V. Belai, D.A. Shapiro, and S.A. Babin. Single-frequency Yb-doped fiber laser with distributed feedback based on a random FBG. Laser Physics Letters, 13(7):075104, 2016. [ DOI ] |
[13] |
V. Nesterov, O. Belai, D. Nies, S. Buetefisch, M. Mueller, T. Ahbe, D. Naparty, R. Popadic, and H. Wolff. Si-traceable determination of the spring constant of a soft cantilever using the nanonewton force facility based on electrostatic methods. Metrologia, 53(4):1031, 2016. [ DOI ] |
[14] |
David Shapiro, Daniel Nies, Oleg Belai, Matthias Wurm, and Vladimir Nesterov. Optical field and attractive force at the subwavelength slit. Opt. Express, 24(14):15972–15977, 2016. [ DOI ] |
[15] |
E.G. Shapiro and D.A. Shapiro. Evaluation of the capacity of communication lines with nonlinear finite memory. Quantum Electronics, 46:1117–1120, 2016. [ DOI ] |
[16] |
L.L. Frumin, O.V. Belai, E.V. Podivilov, and D.A. Shapiro. Efficient numerical method for solving the direct Zakharov–Shabat scattering problem. J. Opt. Soc. Am. B, 32(2):290–296, 2015. [ DOI ] |
[17] |
A.I. Nemykin, S.V. Perminov, L.L. Frumin, and D.A. Shapiro. Excitation of a plasmon resonance in metal cylinders by an evanescent wave. Quantum Electronics, 45(3):240–244, 2015. [ DOI ] |
[18] |
E.G. Shapiro, D.A. Shapiro, and S.K. Turitsyn. Method for computing the optimal signal distribution and channel capacity. Optics Express, 23(12):15119–15133, 2015. [ DOI ] |
[19] |
E.G. Shapiro and D.A. Shapiro. Imperfect narrow filtering in optical links with phase modulation. Opt. Commun., 320:27–32, 2014. [ DOI ] |
[20] |
L.L. Frumin, A.V. Nemykin, S.V. Perminov, and D.A. Shapiro. Plasmons excited by an evanescent wave in a periodic array of nanowires. J. Opt., 15(8):085002, 2013. [ DOI ] |
[21] |
L.L. Frumin, S.V. Perminov, and D.A. Shapiro. Plasmons excited by an evanescent wave. J. Opt. Soc. Am. B, 30(8):2048–2052, 2013. [ DOI ] |
[22] |
A.D. May, W.-K. Liu, F.R.W. McCourt, R. Ciurylo, J. Sanchez-Fortun Stoker, D. Shapiro, and R. Wehr. The impact theory of spectral line shapes: a paradigm shift. Can. J. Phys., 91(11):879–895, 2013. [ DOI ] |
[23] |
A.V. Nemykin and D.A. Shapiro. Optical FBG filter with minimum group delay for WDM systems. Opt. Commun., 289:97–102, 2013. [ DOI ] |
[24] |
E.G. Shapiro and D.A. Shapiro. Narrow optical filtering in phase modulated communication links. Electr. Lett., 49(4):279–281, 2013. [ DOI ] |
[25] |
O.V. Belai, L.L. Frumin, S.V. Perminov, and D.A. Shapiro. Scattering of evanescent wave by two cylinders near a flat boundary. Europhys. Lett., 97(1):10007–10016, 2012. [ DOI ] |
[26] |
O.V. Belai and D.A. Shapiro. Broadening of resonance induced by high-order spatial harmonics. Int. Rev. Atom. Mol. Phys., 3(1):61–73, 2012. [ .pdf ] |
[27] |
O.V. Belai, L.L. Frumin, S.V. Perminov, and D.A. Shapiro. Scattering of evanescent electromagnetic waves by a cylinder near the flat boundary: the Green function and fast numerical method. Opt. Lett., 36(6):954–956, 2011. [ DOI ] |
[28] |
O.V. Belay and S.P. Kiselev. Molecular dynamics simulation of deformation and fracture of a "copper – molybdenum" nanocomposite plate under uniaxial tension. Phys. Mesomech., 14(3–4):145–153, 2011. [ DOI ] |
[29] |
V. Nesterov and L. Frumin. Light-induced attractive force between two metal bodies separated by a subwavelength slit. Meas. Sci. Technol., 22(9):94008–94014, 2011. [ DOI ] |
[30] |
V. Nesterov, L. Frumin, and E. Podivilov. Negative light pressure force between two metal bodies separated by a subwavelength slit. Europhys. Lett., 94(6):64002–64006, 2011. [ DOI ] |
[31] |
D.A. Shapiro and A.I. Latkin. Sixth moment optimization of multi-channel Bragg filters. Opt. Commun., 284(6):1565–1568, 2011. [ DOI ] |
[32] |
E.G. Shapiro and M.P. Fedoruk. Statistics of errors in fibre communication lines with a phase-modulation format and optical phase conjugation. Quantum Electron., 41(6):541–544, 2011. [ DOI ] |
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