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Issue 11, 2024
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PACS numbers

42.60.Lh Efficiency, stability, gain, and other operational parameters
  1. Modern problems in the physical sciences (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 23 November 2011)Phys. Usp. 55 721–738 (2012)
    01.10.Fv, 02.70.−c, 05.10.−a, 05.50.+q, 14.60.St, 23.40.−s, 31.10.+z, 42.55.Lt, 42.60.Lh, 52.50.Jm (all)
  2. A.A. Ionin “High-power IR- and UV-laser systems and their applicationsPhys. Usp. 55 721–728 (2012)
    42.55.Lt, 42.60.Lh, 52.50.Jm (all)
  3. E.B. Aleksandrov, A.F. Andreev et alVeniamin Pavlovich Chebotaev (Obituary)Phys. Usp. 36 (2) 100–101 (1993)
    01.60.+q, 42.60.Jf, 42.60.Lh, 32.80.Wr (all)
  4. V.V. Likhanskii, A.P. Napartovich “Radiation emitted by optically coupled lasersSov. Phys. Usp. 33 (3) 228–252 (1990)
    42.60.Jf, 42.60.Lh, 42.60.Fc, 42.79.Ag, 05.45.−a (all)
  5. A.M. Prokhorov “A new generation of solid-state lasersSov. Phys. Usp. 29 3–19 (1986)
    42.55.Rz, 42.60.By, 42.70.Hj, 42.70.Ce, 42.60.Gd, 42.60.Lh (all)
  6. G.A. Mesyats, Yu.D. Korolev “High-pressure volume discharges in gas lasersSov. Phys. Usp. 29 57–69 (1986)
    42.55.Lt, 42.60.By, 42.60.Jf, 42.60.Fc, 42.60.Lh (all)
  7. S.N. Bagaev, V.P. Chebotaev “Laser frequency standardsSov. Phys. Usp. 29 82–103 (1986)
    42.62.Eh, 42.60.Lh, 42.65.−k (all)
  8. I.A. Shcherbakov “Energy transfer in solids, new active media for solid-state lasersSov. Phys. Usp. 28 530–531 (1985)
    42.55.Rz, 42.70.Hj, 42.60.Jf, 42.60.Lh (all)
  9. I.I. Sobel’man “Another look at what is possible and impossible in opticsSov. Phys. Usp. 17 596–598 (1975)
    42.60.Jf, 42.65.Re, 42.60.Lh (all)
  10. N.G. Basov, É.M. Belenov et alCompressed-Gas LasersSov. Phys. Usp. 16 562–563 (1974)
    42.55.Lt, 42.60.By, 42.60.Lh, 42.60.Jf, 42.60.Fc, 42.65.Re (all)
  11. N.N. Sobolev, V.V. Sokovikov “The carbon monoxide laser. Population inversion mechanismSov. Phys. Usp. 16 350–360 (1973)
    42.55.Lt, 51.70.+f, 42.60.Lh, 42.60.Jf (all)
  12. G.G. Petrash “PULSED GAS-DISCHARGE LASERSSov. Phys. Usp. 14 747–765 (1972)
    42.55.Lt, 42.60.Jf, 42.60.Lh, 42.65.Re (all)
  13. B.Ya. Zel’dovich, T.I. Kuznetsova “Generation of ultrashort light pulses by means of lasersSov. Phys. Usp. 15 25–44 (1972)
    42.65.Re, 42.79.Ci, 42.60.Jf, 42.60.Lh, 02.70.Rr (all)
  14. A.G. Molchanov “Lasers in the vacuum ultraviolet and in the X-ray regions of the spectrumSov. Phys. Usp. 15 124–129 (1972)
    42.55.Lt, 42.60.Lh, 42.60.Jf, 51.70.+f (all)
  15. S.A. Akhmanov “Nonlinear Optics of Picosecond PulsesSov. Phys. Usp. 13 666–667 (1971)
    42.65.Re, 42.65.Ky, 42.60.Jf, 42.60.Fc, 42.60.Lh (all)
  16. O.N. Krokhin “Use of Lasers for Plasma HeatingSov. Phys. Usp. 14 362–362 (1971)
    52.50.Jm, 52.57.−z, 42.60.Lh (all)
  17. V.F. Kitaeva, A.N. Odintsov, N.N. Sobolev “Continuously operating argon ion lasersSov. Phys. Usp. 12 699–730 (1970)
    42.55.Lt, 42.60.By, 42.60.Pk, 42.60.Jf, 42.79.Bh, 42.60.Lh (all)
  18. M.S. Dzhidzhoev, V.T. Platonenko, R.V. Khokhlov “CHEMICAL LASERSSov. Phys. Usp. 13 247–268 (1970)
    42.55.Ks, 42.60.Jf, 42.60.Lh, 33.15.Mt (all)
  19. B.L. Livshitz “’TRAVELING MEDIUM’ LASERSov. Phys. Usp. 12 430–433 (1969)
    42.55.Rz, 42.60.Da, 42.60.Jf, 42.60.Lh (all)
  20. V.E. Privalov, S.A. Fridrikhov “The ring gas laserSov. Phys. Usp. 12 153–167 (1969)
    42.55.Lt, 42.60.Da, 42.79.Bh, 42.60.Jf, 42.60.Fc, 42.60.Lh (all)
  21. V.P. Tychinskii “Powerful gas lasersSov. Phys. Usp. 10 131–152 (1967)
    42.55.Lt, 42.60.By, 42.60.Jf, 42.60.Lh, 42.62.−b (all)
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