PACS numbers

42.50.Pq Cavity quantum electrodynamics; micromasers 71.70.Jp Nuclear states and interactions 76.30.Fc Iron group (3d) ions and impurities (Ti-Cu) 84.40.Ik Masers; gyrotrons (cyclotron-resonance masers)
  1. S.V. Demishev, V.V. Glushkov et alQuantum phase transitions in spiral magnets without inversion center59 559–563 (2016)
    75.10.Kt, 75.30.Kz, 75.47.−m, 75.50.Bb, 76.30.Fc (all)
  2. M.Yu. Glyavin, G.G. Denisov et alHigh power terahertz sources for spectroscopy and material diagnostics59 595–604 (2016)
    07.57.−c, 41.60.−m, 84.40.Ik (all)
  3. S.G. Ovchinnikov, V.V. Rudenko “Anisotropic interactions in magnetic crystals with S-state ions. Nanostructures57 1180–1198 (2014)
    75.25.-j, 75.30.Gw, 76.30.Fc (all)
  4. S. Haroche “Controlling photons in a box and exploring the quantum to classical boundary57 (10) (2014)
    03.67.−a, 42.50.Dv, 42.50.Pq (all)
  5. A.V. Nikolaev, A.V. Tsvashchenko “The puzzle of the γ→α and other phase transitions in cerium55 657–680 (2012)
    61.50.Ks, 64.70.K−, 71.10.−w, 71.27.+a, 71.70.Jp, 76.80.+y, 81.30.−t (all)
  6. V.L. Bratman, A.G. Litvak, E.V. Suvorov “Mastering the terahertz domain: sources and applications54 837–844 (2011)
    07.57.−c, 42.62.−b, 84.40.Ik (all)
  7. Celebrating 50 years of the laser (Scientific session of the General Meeting of the Physical Sciences Division of the Russian Academy of Sciences, 13 December 2010)54 837–870 (2011)
    01.10.Fv, 03.75.−b, 07.57.−c, 32.30.Jc, 37.10.−x, 37.10.De, 37.10.Gh, 42.62.−b, 42.65.−k, 42.70.−a, 42.82.−m, 67.85.−d, 78.67.−n, 85.40.−e, 84.40.Ik (all)
  8. A.A. Andronov, V.L. Bratman et alJoint meeting of the Editorial Board of the Journal ’Izvestiya Vuzov. Radiofizika’ and the Scientific Council of the Institute of Applied Physics of the Russian Academy of Sciences dedicated to the ninetieth birthday of Vitalii Lazarevich Ginzburg (4 October 2006)50 301–303 (2007)
    41.20.Jb, 41.60.Cr, 42.25.Ja, 52.35.Mw, 52.59.−f, 84.40.Ik, 87.10.+e, 94.20.−y, 96.50.S−, 98.70.Sa (all)
  9. V.L. Bratman “Fast moving radiators and their use in high-frequency electronics50 303–308 (2007)
    41.60.Cr, 52.59.−f, 84.40.Ik (all)
  10. I.M. Beterov, P.B. Lerner “Spontaneous and induced emission of a Rydberg atom in a cavity32 1084–1110 (1989)
    42.50.Pq, 42.50.Hz (all)
  11. V.V. Zheleznyakov, V.V. Kocharovskii, V.V. Kocharovskii “Polarization waves and super-radiance in active media32 835–870 (1989)
    42.50.Fx, 42.50.Pq, 42.50.Lc, 42.50.Ar, 71.36.+c (all)
  12. V.S. Shpinel’ “Nuclear-spectroscopic studies of hyperfine interactions for impurities in metals30 538–539 (1987)
    71.70.Jp, 75.50.Bb, 75.30.Et (all)
  13. A.M. Prokhorov “On the twenty-fifth anniversary of the laser29 1–2 (1986)
    42.55.Ah, 42.60.−v, 42.50.−p, 84.40.Ik, 42.55.Mv, 42.65.Lm (all)
  14. V.A. Atsarkin, M.I. Rodak “Temperature of spin-spin interactions in electron spin resonance15 251–265 (1972)
    76.30.Fc, 71.70.Ej (all)
  15. S.A. Al’tshuler “Electron-nucleon Magnetic Resonance (ENMR)13 672–672 (1971)
    76.30.Fc, 76.30.Kg, 76.60.Es (all)
  16. N.V. Karlov, O.N. Krokhin “The 1964 Nobel prize in physics8 143–144 (1965)
    01.10.Cr, 84.40.Ik, 42.55.−f (all)
  17. N.V. Karlov, A.M. Prokhorov et alApplication of paramagnetic crystals in quantum electronics5 401–429 (1962)
    76.30.Fc, 84.40.Ik, 42.50.Pq, 71.70.Jp (all)
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