PACS numbers

03.65.Nk Scattering theory 28.20.−v Neutron physics 85.75.−d Magnetoelectronics; spintronics: devices exploiting spin polarized transport or integrated magnetic fields
  1. A.A. Gorbatsevich, N.M. Shubin “Quantum logic gates61 1100–1115 (2018)
    03.65.Nk, 03.65.Xp, 85.35.−p, 85.65.+h (all)
  2. V.A. Bushuev, A.I. Frank “Goos—Hänchen effect in neutron optics and the reflection time of neutron waves61 952–964 (2018)
    03.65.Nk, 03.75.Be, 41.85.−p, 42.25.Fx, 78.70.−g (all)
  3. A.I. Frank “On the properties of the "potential" neutron dispersion law in a refractive medium61 900–901 (2018)
    03.65.Nk, 03.75.Be (all)
  4. D.A. Tatarskiy, A.V. Petrenko et alFeatures of the motion of spin 1/2 particles in a noncoplanar magnetic field59 583–587 (2016)
    03.65.Nk, 28.20.−v, 85.75.−d (all)
  5. V.A. Soltamov, P.G. Baranov “Radio spectroscopy of the optically aligned spin states of color centers in silicon carbide59 605–610 (2016)
    76.30.−v, 78.47.−p, 85.75.−d (all)
  6. E.V. Lychagin, D.P. Kozlenko et alNeutron physics at the INR — 60 years of the I M Frank Neutron Physics Laboratory59 254–263 (2016)
    28.20.−v, 29.25.Dz, 61.05.F− (all)
  7. A.P. Pyatakov, A.S. Sergeev et alMicromagnetism and topologic defects in magnetoelectric media58 981–992 (2015)
    75.85.+t, 85.70.−w, 85.75.−d (all)
  8. S.A. Nikitov, D.V. Kalyabin et alMagnonics: a new research area in spintronics and spin wave electronics58 1002–1028 (2015)
    75.30.Ds, 85.70.−w, 85.75.−d (all)
  9. Spintronics and nanomagnetism (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 25 April 2012)55 1255–1267 (2012)
    01.10.Fv, 61.72.−y, 62.20.−x, 62.30.+d, 75.47.−m, 75.75.−c, 85.75.−d (all)
  10. A.A. Fraerman “Magnetic states and transport properties of ferromagnetic nanostructures55 1255–1260 (2012)
    75.47.−m, 75.75.−c, 85.75.−d (all)
  11. A.P. Pyatakov, A.K. Zvezdin “Magnetoelectric and multiferroic media55 557–581 (2012)
    75.85.+t, 85.70.−w, 85.75.−d (all)
  12. N.V. Volkov “Spintronics: manganite-based magnetic tunnel structures55 250–269 (2012)
    72.25.−b, 75.76.+j, 85.75.−d (all)
  13. Yu.M. Bruk, A.N. Voloshchuk “Scattering phases for particles with nonzero orbital momenta and resonance regimes in the Pais approximation55 161–168 (2012)
    03.65.Nk, 21.45.Bc, 34.50.Cx (all)
  14. V.V. Nesvizhevsky “Near-surface quantum states of neutrons in the gravitational and centrifugal potentials53 645–675 (2010)
    03.65.Ge, 28.20.−v, 29.30.Hs (all)
  15. Yu.G. Kusrayev “Spin phenomena in semiconductors: physics and applications53 725–738 (2010)
    75.47.−m, 75.76.+j, 85.75.−d (all)
  16. S.A. Tarasenko “Spin photocurrents in semiconductors53 739–742 (2010)
    75.76.+j, 78.56.−a, 85.75.−d (all)
  17. N.S. Averkiev “Spin relaxation anisotropy in two-dimensional semiconductors53 742–745 (2010)
    75.76.+j, 76.30.−v, 85.75.−d (all)
  18. G.A. Mesyats, B.M. Bolotovskii et alCommemoration of the centenary of the birth of Academician I M Frank (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 22 October 2008)52 377–413 (2009)
    01.10.Fv, 01.60.+q, 01.65.+g, 03.75.Be, 28.20.−v, 28.41.−i, 41.60.Bq, 41.60.Dk (all)
  19. A.N. Sissakian, M.G. Itkis “I M Frank and the development of the Joint Institute for Nuclear Research52 388–394 (2009)
    01.65.+g, 28.20.−v, 28.41.−i (all)
  20. B.A. Benetskii “I M Frank: founder and leader of FIAN’s Laboratory of Atomic Nucleus52 394–397 (2009)
    01.60.+q, 01.65.+g, 28.20.−v (all)
  21. A.I. Frank “I M Frank and the optics of ultracold neutrons52 397–406 (2009)
    01.65.+g, 03.75.Be, 28.20.−v (all)
  22. V.L. Aksenov “Pulsed nuclear reactors in neutron physics52 406–413 (2009)
    01.65.+g, 28.20.−v, 28.41.−i (all)
  23. Yu.V. Gulyaev, P.E. Zil’berman, E.M. Epshtein “Nano-sized structures incorporating ferromagnetic metal layers: new effects due to the passage of a perpendicular current51 409–412 (2008)
    72.25.−b, 75.75.+a, 85.75.−d (all)
  24. A.K. Zvezdin, K.A. Zvezdin, A.V. Khval’kovskii “The generalized Landau-Lifshitz equation and spin transfer processes in magnetic nanostructures51 412–417 (2008)
    72.25.−b, 75.75.+a, 85.75.−d (all)
  25. Yu.Ya. Stavissky “Giant pulses of thermal neutrons in large accelerator beam dumps. Possibilities for experiments49 1253–1262 (2006)
    28.20.−v, 29.20.−c, 61.12.−q (all)
  26. A.P. Serebrov “Neutron lifetime measurements using gravitationally trapped ultracold neutrons48 867–885 (2005)
    06.20.−f, 14.20.Dh, 28.20.−v (all)
  27. V.V. Belov, S.Yu. Dobrokhotov et alA generalized adiabatic principle for electron dynamics in curved nanostructures48 962–968 (2005)
    03.65.Ge, 03.65.Nk, 73.63.−b (all)
  28. B.P. Zakharchenya, V.L. Korenev “Integrating magnetism into semiconductor electronics48 603–608 (2005)
    72.25.Pn, 78.67.−n, 85.75.−d (all)
  29. A.V. Strelkov “Neutron storage47 511–515 (2004)
    01.10.Fv, 03.75.Be, 14.20.Dh, 28.20.−v (all)
  30. V.V. Nesvizhevskii “Investigation of quantum neutron states in the terrestrial gravitational field above a mirror47 515–521 (2004)
    03.65.Ta, 03.75.Be, 28.20.−v (all)
  31. V.V. Nesvizhevskii “Quantum states of neutrons in a gravitational field and the interaction of neutrons with nanoparticles46 93–97 (2003)
    03.65.Ge, 14.20.−c, 28.20.−v (all)
  32. Yu.G. Abov “Coherent processes in nuclei and crystals39 891–896 (1996)
    13.75.Cs, 25.40.−h, 28.20.−v (all)
  33. I.M. Frank “Fiftieth anniversary of the discovery of the neutron25 279–279 (1982)
    01.65.+g, 14.20.Dh, 28.20.−v (all)
  34. A.M. Dykhne, G.L. Yudin “’Jarring’ of a quantum system and the corresponding stimulated transitions21 549–565 (1978)
    03.65.Ca, 05.30.Ch, 03.65.Nk, 03.80.+r (all)
  35. V.V. Babikov “The phase-function method in quantum mechanics10 271–284 (1967)
    03.65.Vf, 03.65.Ge, 03.65.Nk (all)
  36. P.G. Baranov, A.M. Kalashnikova et alSpintronics of semiconductor, metallic, dielectric, and hybrid structures”, accepted
    85.75.−d, 75.76.+j, 75.78.Jp, 78.30.Fs, 78.55.Et, 76.70.Hb, 75.30.Kz, 75.50.Bb, 75.50.Gg (all)
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