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Issue 11, 2025
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PACS numbers

06.30.Ft Time and frequency 07.85.Qe Synchrotron radiation instrumentation 42.55.−f Lasers 61.05.C− X-ray diffraction and scattering 61.05.cj X-ray absorption spectroscopy: EXAFS, NEXAFS, XANES, etc.
  1. V.V. Lider “Pumping and X-ray probing techniquePhys. Usp. 68 905–922 (2025)
    06.30.Ft, 07.85.Qe, 42.55.−f, 61.05.C−, 61.05.cj (all)
  2. E.N. Ovchinnikova, A.P. Oreshko, V.E. Dmitrienko “Interference phenomena in X-ray diffraction spectroscopyPhys. Usp. 68 393–400 (2025)
    61.05.C−, 61.50.Ah, 78.70.Ck, 78.70.Dm (all)
  3. I.A. Shcherbakov “On the 60th anniversary of Nobel Prize for discovery of laser-maser principlePhys. Usp. 67 845–848 (2024)
    01.65.+g, 42.55.−f, 42.60.−v (all)
  4. V.V. Lider “X-ray refraction introscopyPhys. Usp. 67 325–337 (2024)
    07.85.−m, 41.50.+h, 61.05.C−, 78.20.Bh, 87.59.−e (all)
  5. G.V. Smirnov “Coherent nuclear fluorescence: synchrotron Mössbauer radiationPhys. Usp. 67 272–291 (2024)
    07.85.Qe, 75.25.-j, 76.80.+y (all)
  6. I.G. Dyachkova, D.A. Zolotov et alPotential of the microwave method for the activation of carbon materials in comparison with the traditional thermal methodPhys. Usp. 66 1248–1257 (2023)
    61.05.C−, 68.37.Hk, 68.37.Lp, 78.70.Gq (all)
  7. A.I. Protsenko, I.A. Eliovich et alInvestigation of the dynamics of the Belousov—Zhabotinsky reaction by time-resolved X-ray absorption spectroscopy using adaptive X-ray optical elementsPhys. Usp. 66 1258–1261 (2023)
    07.85.Nc, 07.85.Qe, 61.05.cj (all)
  8. N.A. Veretenov, N.N. Rosanov, S.V. Fedorov “Laser solitons: topological and quantum phenomenaPhys. Usp. 65 131–162 (2022)
    42.50.Lc, 42.55.−f, 42.65.−k, 42.65.Tg (all)
  9. K.Yu. Khabarova, N.N. Kolachevsky “Proton charge radiusPhys. Usp. 64 1038–1048 (2021)
    06.20.Jr, 06.30.Ft, 12.20.Fv, 32.10.Fn, 32.30.Jc, 42.62.Fi (all)
  10. A.I. Protsenko, A.E. Blagov et alQEXAFS method implementation using adaptive X-ray optical elementsPhys. Usp. 64 83–87 (2021)
    07.85.Ne, 07.85.Qe, 61.05.cj (all)
  11. G.V. Fetisov “X-ray diffraction methods for structural diagnostics of materials: progress and achievementsPhys. Usp. 63 2–32 (2020)
    07.85.−m, 42.55.Vc, 61.05.C− (all)
  12. E.A. Khazanov, S.Yu. Mironov, G. Mourou “Nonlinear compression of high-power laser pulses: compression after compressor approachPhys. Usp. 62 1096–1124 (2019)
    42.55.−f, 42.65.Jx, 42.65.Rc (all)
  13. V.V. Lider “X-ray fluorescence imagingPhys. Usp. 61 980–999 (2018)
    41.50.+h, 42.79.−e, 61.05.cj, 87.59.−e (all)
  14. V.I. Balykin “Plasmon nanolaser: current state and prospectsPhys. Usp. 61 846–870 (2018)
    42.50.−p, 42.50.Nn, 42.55.−f, 42.60.By (all)
  15. K.Yu. Khabarova, E.S. Kalganova, N.N. Kolachevsky “Accurate frequency and time dissemination in the optical domainPhys. Usp. 61 203–211 (2018)
    06.20.Jr, 06.30.Ft, 12.20.Fv, 32.10.Fn, 32.30.Jc, 42.62.Fi (all)
  16. V.V. Kocharovsky, V.V. Zheleznyakov et alSuperradiance: the principles of generation and implementation in lasersPhys. Usp. 60 345–384 (2017)
    32.50.+d, 32.80.Qk, 42.50.Nn, 42.55.−f (all)
  17. S.K. Turitsyn, N.N. Rozanov et alDissipative solitons in fiber lasersPhys. Usp. 59 642–668 (2016)
    05.45.Yv, 42.55.Ah, 42.55.−f, 42.55.Wd, 42.60.Fc, 42.65.Tg, 42.81.Dp (all)
  18. E.V. Suvorov, I.A. Smirnova “X-ray diffraction imaging of defects in topography (microscopy) studiesPhys. Usp. 58 833–849 (2015)
    61.05.C−, 61.72.Dd, 61.72.Ff (all)
  19. N.A. Vinokurov, E.B. Levichev “Undulators and wigglers for production of radiation and other applicationsPhys. Usp. 58 850–871 (2015)
    03.50.De, 07.85.Qe, 41.60.−m (all)
  20. V.I. Punegov “High-resolution X-ray diffraction in crystalline structures with quantum dotsPhys. Usp. 58 419–445 (2015)
    61.05.C−, 68.65.−k (all)
  21. P.G. Kryukov “Continuous-wave femtosecond lasersPhys. Usp. 56 849–867 (2013)
    42.55.−f, 42.62.−b, 42.65.−k (all)
  22. Forty years of the Institute for Nuclear Research (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 22 December 2010)Phys. Usp. 54 939–974 (2011)
    01.10.Fv, 01.52.+r, 01.65.+g, 14.60.Pq, 14.60.−z, 25.30.Pt, 26.65.+t, 28.60.+s, 29.20.−c, 29.40.Ka, 32.80.Qk, 32.80.Wr, 42.55.−f, 87.56.B−, 95.55.Vj, 96.50.sb, 96.50.sh, 96.60.Vg (all)
  23. A.M. Shalagin “High-power diode-pumped alkali lasers (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))Phys. Usp. 54 975–980 (2011)
    32.80.Qk, 32.80.Wr, 42.55.−f (all)
  24. Celebrating the 65th anniversary of the Russian Federal Nuclear Center — All-Russian Research Institute of Experimental Physics (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 6 October 2010)Phys. Usp. 54 387–427 (2011)
    01.10.Fv, 01.65.+g, 05.70.Ce, 07.35.+k, 07.55.Db, 28.52.−s, 28.70.+y, 42.55.−f, 42.62.−b, 47.20.−k, 47.27.wj, 47.40.−x, 52.57.−z, 61.05.C−, 64.30.−t, 74.25.−q, 84.30.Ng, 84.70.+p, 85.70.−w (all)
  25. A.M. Podurets “Pulsed X-ray diffraction structure study of shocked materialsPhys. Usp. 54 408–414 (2011)
    07.35.+k, 47.40.−x, 61.05.C− (all)
  26. S.G. Garanin “High-power lasers and their applications in high-energy-density physics studiesPhys. Usp. 54 415–421 (2011)
    42.55.−f, 42.62.−b, 52.57.−z (all)
  27. 50 years of the laser eraPhys. Usp. 54 1–2 (2011)
    01.65.+g, 42.55.−f (all)
  28. O.N. Krokhin “Laser: a source of coherent lightPhys. Usp. 54 3–7 (2011)
    01.65.+g, 42.25.−p, 42.55.−f (all)
  29. A.V. Korzhimanov, A.A. Gonoskov et alHorizons of petawatt laser technologyPhys. Usp. 54 9–28 (2011)
    41.75.Jv, 42.55.−f, 42.62.Be, 42.65.Yj, 52.38.Kd, 52.38.Ph (all)
  30. I.A. Shcherbakov “Development history of the laserPhys. Usp. 54 65–71 (2011)
    01.65.+g, 42.55.−f, 42.60.−v (all)
  31. I.M. Belousova “The laser in the USSR: the first stepsPhys. Usp. 54 73–75 (2011)
    01.65.+g, 42.55.−f, 42.60.−v (all)
  32. A.V. Masalov “Optical Department of the Lebedev Physical Institute: early work on lasersPhys. Usp. 54 87–91 (2011)
    01.65.+g, 42.55.−f, 42.60.−v (all)
  33. V.L. Velichansky, M.A. Gubin “Laser frequency standards at the P N Lebedev Physical InstitutePhys. Usp. 52 1153–1158 (2009)
    01.30.Bb, 06.30.Ft, 42.55.Px, 42.62.Eh (all)
  34. A.N. Lagarkov, A.K. Sarychev et alSuperresolution and enhancement in metamaterialsPhys. Usp. 52 959–967 (2009)
    42.25.Gy, 42.55.−f, 78.67.−n (all)
  35. V.S. Davydov, V.M. Shabaev, N.N. Kolachevsky “Selected problems in hydrodynamics, quantum electrodynamics, and laser spectroscopy (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 14 May 2008)Phys. Usp. 51 1171–1190 (2008)
    01.10.Fv, 06.20.Jr, 06.30.Ft, 12.20.−m, 12.20.Ds, 12.20.Fv, 32.10.Fn, 32.30.Jc, 31.30.Gs, 31.30.Jv, 42.62.Fi, 43.30.+m, 43.60.+d, 92.10.Vz (all)
  36. N.N. Kolachevsky “High-precision laser spectroscopy of cold atoms and the search for the drift of the fine structure constantPhys. Usp. 51 1180–1190 (2008)
    06.20.Jr, 06.30.Ft, 12.20.Fv, 32.10.Fn, 32.30.Jc, 42.62.Fi (all)
  37. E.A. Khazanov, A.M. Sergeev “Petawatt laser based on optical parametric amplifiers: their state and prospectsPhys. Usp. 51 969–974 (2008)
    42.55.−f, 42.60.By, 42.65.−k (all)
  38. A.R. Aramyan, G.A. Galechyan “Vortices in a gas-discharge plasmaPhys. Usp. 50 1147–1169 (2007)
    42.55.−f, 52.20.Hv, 52.75.−d, 52.80.−s (all)
  39. E.M. Dianov, N.V. Karlov et alScientific session of the Physical Sciences Division of the Russian Academy of Sciences dedicated to the ninetieth anniversary of Academician A M Prokhorov (25 October 2006)Phys. Usp. 50 649–656 (2007)
    01.10.Fv, 01.65.+g, 42.50.−p, 42.55.−f (all)
  40. G.N. Kulipanov “Ginzburg’s invention of undulators and their role in modern synchrotron radiation sources and free electron lasersPhys. Usp. 50 368–376 (2007)
    01.10.Fv, 07.85.−m, 07.85.Qe, 41.60.Cr (all)
  41. E.N. Ragozin, I.I. Sobel’man “Laser sources in the soft X-ray spectral regionPhys. Usp. 48 1249–1250 (2005)
    41.60.Cr, 42.55.−f, 42.55.Vc (all)
  42. N.N. Kolachevsky “Laboratory search for time variation in the fine structure constantPhys. Usp. 47 1101–1118 (2004)
    06.20.Jr, 06.30.Ft (all)
  43. O.N. Krokhin “The early years of quantum electronicsPhys. Usp. 47 1045–1048 (2004)
    01.65.+g, 42.55.−f, 84.40.−x (all)
  44. A.L. Mikaelyan “From quantum electronics to laser technology (first steps in application)Phys. Usp. 47 1051–1055 (2004)
    01.65.+g, 42.55.−f, 42.62.−b (all)
  45. P.A. Apanasevich “Development of laser physics in BelarusPhys. Usp. 47 1056–1058 (2004)
    01.65.+g, 42.55.−f, 42.62.−b (all)
  46. V.A. Makarov “Quantum electronics and the R V Khokhlov-S A Akhmanov school of coherent and nonlinear optics at Moscow State UniversityPhys. Usp. 47 1059–1065 (2004)
    01.65.+g, 42.55.−f, 42.65.−k (all)
  47. Yu.M. Popov “On the history of the invention of the injection laserPhys. Usp. 47 1068–1070 (2004)
    01.65.+g, 42.55.−f, 84.40.−x (all)
  48. A.A. Ivanov, M.V. Alfimov, A.M. Zheltikov “Femtosecond pulses in nanophotonicsPhys. Usp. 47 687–704 (2004)
    42.55.−f, 42.62.−b, 42.65.Ky, 42.65.Re (all)
  49. E.N. Ragozin, I.I. Sobel’man “Free-electron laser: advancement into the X-ray regionPhys. Usp. 47 195–196 (2004)
    41.60.Cr, 41.75.Jv, 42.55.−f (all)
  50. V.S. Letokhov “Lasing in spacePhys. Usp. 45 1306–1309 (2002)
    42.55.−f, 97.20.−w (all)
  51. V.V. Datsyuk, I.A. Izmailov “Optics of microdropletsPhys. Usp. 44 1061–1073 (2001)
    12.20.Fv, 42.50.−p, 42.55.−f, 42.65.−k, 42.68.Wt (all)
  52. A.N. Oraevskii “Superluminal waves in amplifying mediaPhys. Usp. 41 1199–1209 (1998)
    42.50.Gy, 42.55.−f, 42.65.−k (all)
  53. I.D. Novikov “Physical properties of a time machineSov. Phys. Usp. 32 282–283 (1989)
    06.30.Ft, 07.10.Pz, 03.30.+p (all)
  54. A.A. Vedenov, G.D. Myl’nikov, D.N. Sobolenko “Generation of coherent far-infrared radiation using lasersSov. Phys. Usp. 25 833–853 (1982)
    42.65.Cq, 42.80.-f, 42.72.+h, 42.55.−f
  55. M.V. Fedorov “Interaction of electrons with the electromagnetic field in free electron lasersSov. Phys. Usp. 24 801–814 (1981)
    42.55.−f, 41.70.+t
  56. Yu.A. Anan’ev “Angular divergence of radiation of solid-state lasersSov. Phys. Usp. 14 197–215 (1971)
    42.55.−f, 42.79.Bh (all)
  57. N.G. Basov, V.S. Letokhov “Optical frequency standardsSov. Phys. Usp. 11 855–880 (1969)
    06.30.Ft, 06.20.fb (all)
  58. S.A. Akhmanov, R.V. Khokhlov “New developments in non-linear opticsSov. Phys. Usp. 11 394–402 (1968)
    01.30.Cc, 42.65.−k, 42.70.Nq, 42.50.Ct, 42.55.−f (all)
  59. L.D. Derkacheva, G.V. Peregudov, A.I. Sokolovskaya “Rare-earth chelate lasersSov. Phys. Usp. 10 91–99 (1967)
    42.55.−f, 42.60.Jf, 42.70.Hj, 42.70.Jk (all)
  60. N.V. Karlov, O.N. Krokhin “The 1964 Nobel prize in physicsSov. Phys. Usp. 8 143–144 (1965)
    01.10.Cr, 84.40.Ik, 42.55.−f (all)
  61. B.I. Stepanov, V.P. Gribkovskii “Application of the statistical method to calculation of the optical properties of lasersSov. Phys. Usp. 7 68–79 (1964)
    42.55.−f, 42.60.Jf, 02.70.Rr (all)
  62. N.G. Basov, O.N. Krokhin et alPossible investigation of relativistic effects with the aid of molecular and atomic frequency standardsSov. Phys. Usp. 4 641–673 (1962)
    06.20.fb, 06.30.Ft, 03.30.+p, 04.20.−q (all)
  63. S.G. Garanin, F.A. Starikov “Nonlinear and linear adaptive optics for laser beam correctionPhys. Usp., accepted
    42.55.−f, 42.60.By, 42.65.Es, 42.65.Hw, 42.68.Wt (all)
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