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Issue 11, 2025
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PACS numbers

07.35.+k High-pressure apparatus; shock tubes; diamond anvil cells 42.62.−b Laser applications 47.40.−x Compressible flows; shock waves
  1. A.V. Eremin “Passive and active laser methods for studying kinetics of nonequilibrium processes in shock tubesPhys. Usp. 68 675–690 (2025)
    07.35.+k, 42.62.−b, 47.40.−x (all)
  2. G.N. Makarov “Laser separation of boron isotopes: research results and options for technological implementationPhys. Usp. 68 452–489 (2025)
    07.77.Gx, 28.60.+s, 33.80.−b, 36.40.−c, 42.62.−b, 42.62.Fi, 82.50.Bc (all)
  3. S.V. Gudkov, R.M. Sarimov et alModern physical methods and technologies in agriculturePhys. Usp. 67 194–210 (2024)
    42.62.−b, 42.68.Wt, 52.77.−j (all)
  4. G.N. Makarov “New approaches to molecular laser separation of uranium isotopesPhys. Usp. 67 44–54 (2024)
    07.77.Gx, 28.60.+s, 33.80-b, 36.40.−c, 42.62.−b, 42.62.Fi, 82.50.Bc (all)
  5. V.D. Zvorykin “N G Basov's role in the development of excimer lasers: a half-century history from the launch of the first Xe2 laser at the Lebedev Physical Institute to modern laser systemsPhys. Usp. 66 1037–1058 (2023)
    42.55.Lt, 42.60.−v, 42.62.−b (all)
  6. A.B. Dyachkov, A.A. Gorkunov et alIsotopically selective photoionization for the production of the medical radioisotope 177LuPhys. Usp. 66 518–533 (2023)
    28.60.+s, 42.62.−b, 87.56.−v (all)
  7. A.P. Porfirev, A.A. Kuchmizhak et alPhase singularities and optical vortices in photonicsPhys. Usp. 65 789–811 (2022)
    07.60.−j, 42.62.−b, 42.70.−a, 42.79.−e, 42.82.−m, 78.20.Fm (all)
  8. B.V. Sokolenko, N.V. Shostka, O.S. Karakchieva “Optical tweezers and manipulators. Modern concepts and future prospectsPhys. Usp. 65 812–833 (2022)
    42.25.−p, 42.40.My, 42.50.Wk, 42.62.−b, 42.62.Be, 42.79.−e (all)
  9. P.V. Zinin, K.M. Bulatov et alRemote measurement of the temperature distribution on the surface of solids under high-power laser irradiationPhys. Usp. 65 852–863 (2022)
    07.35.+k, 07.60.−j, 42.79.Jq (all)
  10. G.N. Makarov “Towards molecular laser separation of uranium isotopesPhys. Usp. 65 531–566 (2022)
    07.77.Gx, 28.60.+s, 33.80.−b, 36.40.−c, 42.62.−b, 42.62.Fi, 82.50.Bc (all)
  11. L.V. Al’tshuler, R.I. Il’kaev, V.E. Fortov “Use of powerful shock and detonation waves to study extreme states of matterPhys. Usp. 64 1167–1179 (2021)
    07.35.+k, 47.40.Rs, 62.50.Ef (all)
  12. G.N. Makarov “New results for laser isotope separation using low-energy methodsPhys. Usp. 63 245–268 (2020)
    07.77.Gx, 33.80.−b, 36.40.−c, 42.62.−b, 42.62.Fi, 82.40.Fp, 82.50.Bc (all)
  13. P.G. Kryukov “Lasers and fiber optics for astrophysicsPhys. Usp. 61 1072–1078 (2018)
    42.62.−b, 42.81.−i, 97.82.−j (all)
  14. V.P. Vasiliev “Current state of high-accuracy laser rangingPhys. Usp. 61 707–713 (2018)
    06.30.Bp, 42.62.−b, 91.10.Fc (all)
  15. M.N. Sapozhnikov “Fifty years of selective laser spectroscopy of solids: a history, general principles and applicationsPhys. Usp. 61 (4) (2018)
    42.62.−b, 42.62.Fi, 61.43.−j, 61.72.−y, 63.20.kp, 78.20.−e, 78.40.Me, 78.55.−m, 78.66.−w, 87.15.−v, 87.15.M− (all)
  16. A.N. Utyuzh, A.V. Mikheyenkov “Hydrogen and its compounds under extreme pressurePhys. Usp. 60 886–901 (2017)
    07.35.+k, 61.50.Ks, 62.50.−p, 64.70.K−, 67.63.−r, 67.80.F−, 67.80.ff, 74.62.Fj, 81.40.Vw (all)
  17. A.M. Kalashnikova, A.V. Kimel, R.V. Pisarev “Ultrafast optomagnetismPhys. Usp. 58 969–980 (2015)
    42.62.−b, 75.40.Gb, 75.50.Ee, 75.78.Jp, 78.20.Ls, 78.30.−j (all)
  18. P.G. Kryukov “Femtosecond lasers for astrophysicsPhys. Usp. 58 762–771 (2015)
    42.62.−b, 97.82.−j, 98.80.−k (all)
  19. G.N. Makarov “Low energy methods of molecular laser isotope separationPhys. Usp. 58 670–700 (2015)
    07.77.Gx, 33.80.−b, 36.40.−c, 42.62.−b, 42.62.Fi, 82.40.Fp, 82.50.Bc (all)
  20. S.S. Alimpiev, A.A. Grechnikov, S.M. Nikiforov “New approaches to the laser mass spectrometry of organic samplesPhys. Usp. 58 191–195 (2015)
    33.80.−b, 42.62.−b, 81.70.−q (all)
  21. A.V. Mitrofanov, D.A. Sidorov-Biryukov et alSubterawatt femtosecondpulses in themid-infrared: A new spatiotemporal dynamics of high-power electromagnetic fieldsPhys. Usp. 58 89–94 (2015)
    42.25.−p, 42.62.−b, 42.65.Re (all)
  22. P.G. Kryukov “Continuous-wave femtosecond lasersPhys. Usp. 56 849–867 (2013)
    42.55.−f, 42.62.−b, 42.65.−k (all)
  23. A.V. Naumov “Low temperature spectroscopy of organic molecules in solid matrices: from the Shpolsky effect to the laser luminescent spectromicroscopy for all effectively emitting single moleculesPhys. Usp. 56 605–622 (2013)
    42.30.−d, 42.62.−b, 61.43.−j, 61.72.−y, 78.20.−e, 78.47.−p, 78.55.−m (all)
  24. A.B. Medvedev, R.F. Trunin “Shock compression of porous metals and silicatesPhys. Usp. 55 773–789 (2012)
    07.35.+k, 42.70.Ce, 62.50.−p, 91.60.Fe, 96.12.−a (all)
  25. V.L. Bratman, A.G. Litvak, E.V. Suvorov “Mastering the terahertz domain: sources and applicationsPhys. Usp. 54 837–844 (2011)
    07.57.−c, 42.62.−b, 84.40.Ik (all)
  26. 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. 54 837–870 (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)
  27. N.N. Ledentsov, J.A. Lott “New-generation vertically emitting lasers as a key factor in the computer communication eraPhys. Usp. 54 853–858 (2011)
    42.62.−b, 42.82.−m, 85.40.−e (all)
  28. 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)
  29. A.L. Mikhailov, N.V. Nevmerzhitskii, V.A. Raevskii “Hydrodynamic instabilitiesPhys. Usp. 54 392–397 (2011)
    47.20.−k, 47.27.wj, 47.40.−x (all)
  30. R.F. Trunin “Extreme states of metals: investigation using shock wave techniquesPhys. Usp. 54 397–403 (2011)
    05.70.Ce, 07.35.+k, 47.40.−x (all)
  31. 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)
  32. 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)
  33. R.F. Trunin, V.D. Urlin, A.B. Medvedev “Dynamic compression of hydrogen isotopes at megabar pressuresPhys. Usp. 53 577–593 (2010)
    07.35.+k, 62.50.−p, 64.30.−t (all)
  34. L.V. Kravchuk “Development of nuclear physics medicine at the Institute for Nuclear Research, RASPhys. Usp. 53 635–639 (2010)
    29.20.−c, 42.62.−b, 87.56.−v (all)
  35. I.S. Lyubutin, A.G. Gavriliuk “Research on phase transformations in 3d-metal oxides at high and ultrahigh pressure: state of the artPhys. Usp. 52 989–1017 (2009)
    07.35.+k, 51.70.+f, 61.50.Ks, 64.30.−t, 64.60.−i, 71.30.+h, 81.40.Rs (all)
  36. V.E. Fortov “Extreme states of matter on Earth and in spacePhys. Usp. 52 615–647 (2009)
    07.35.+k, 29.20.−c, 42.62.−b, 97.60.−s (all)
  37. S.M. Stishov, L.G. Khvostantsev et alOn the 50th anniversary of the L F Vereshchagin Institute for High Pressure Physics, RAS (Scientific outreach session of the Physical Sciences Division of the Russian Academy of Sciences, 23 April 2008)Phys. Usp. 51 1055–1083 (2008)
    01.65.+g, 07.35.+k, 61.50.Ks, 62.50.−p, 64.70.kd, 71.15.−m, 71.18.+y, 73.20.−r, 74.20.−z, 74.70.−b, 75.10.−b (all)
  38. S.M. Stishov “The Institute for High Pressure Physics is now 50 (opening address)Phys. Usp. 51 1055–1059 (2008)
    01.65.+g, 07.35.+k, 61.50.Ks (all)
  39. L.G. Khvostantsev, V.N. Slesarev “Large-volume high-pressure devices for physical investigationsPhys. Usp. 51 1059–1063 (2008)
    01.65.+g, 07.35.+k, 64.70.Kb (all)
  40. A.A. Kaminskii, Bohaty L et alNew nonlinear laser effects in α-quartz: generation of a two-octave Stokes and anti-Stokes comb and cascaded lasing in the spectral range of the second and third harmonicsPhys. Usp. 51 899–909 (2008)
    42.62.−b, 42.65.−k, 42.70.Ce (all)
  41. N.V. Karlov, V.I. Konov et alA M Prokhorov: founder of the General Physics InstitutePhys. Usp. 50 656–660 (2007)
    01.10.Fv, 01.52.+r, 01.65.+g, 42.62.−b (all)
  42. A.V. Andriyash, P.A. Loboda et alLasers and high energy density physics at the All-Russian Research Institute of Technical Physics (VNIITF)Phys. Usp. 49 1084–1092 (2006)
    01.10.Fv, 42.62.−b, 52.38.−r, 52.50.Jm (all)
  43. E.N. Avrorin, V.A. Simonenko, L.I. Shibarshov “Physics research during nuclear explosionsPhys. Usp. 49 432–437 (2006)
    01.10.Fv, 28.70.+y, 47.40.−x, 62.50.+p (all)
  44. B.A. Klumov, V.V. Kim et alDeep Impact experiment: possible observable effectsPhys. Usp. 48 733–742 (2005)
    47.40.−x, 62.50.+p, 82.20.Wt, 96.35.−j, 96.50.Gn (all)
  45. 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)
  46. P.A. Apanasevich “Development of laser physics in BelarusPhys. Usp. 47 1056–1058 (2004)
    01.65.+g, 42.55.−f, 42.62.−b (all)
  47. 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)
  48. E.G. Bessonov, A.V. Vinogradov et alLaser electron-beam X-ray source for medical applicationsPhys. Usp. 46 872–876 (2003)
    42.62.−b, 87.56.By, 87.59.Dj (all)
  49. R.F. Trunin “Shock compression of condensed materials (laboratory studies)Phys. Usp. 44 371–396 (2001)
    07.35.+k, 62.50.+p, 91.60.Gf (all)
  50. I.K. Krasyuk “Application of laser-driven shock waves in studies of thermal and mechanical material propertiesPhys. Usp. 42 1056–1059 (1999)
    42.62.−b, 61.80.Ba (all)
  51. L.V. Al’tshuler, R.F. Trunin et alDevelopment of dynamic high-pressure techniques in RussiaPhys. Usp. 42 261–280 (1999)
    28.70.+y, 47.40.−x, 62.20.Fe (all)
  52. L.P. Feoktistov “Thermonuclear detonationPhys. Usp. 41 1139–1147 (1998)
    44.90.+c, 47.40.−x (all)
  53. A.I. Funtikov “Explosive laboratory devices for the measurement of the dynamic compressibility of porous substances in the pressure range from 0.1 to 1 TPaPhys. Usp. 40 1067–1068 (1997)
    28.70.+y, 47.40.−x, 62.20.Fe (all)
  54. L.V. Al’tshuler, Ya.B. Zel’dovich, Yu.M. Styazhkin “Investigation of isentropic compression and equations of state of fissionable materialsPhys. Usp. 40 101–102 (1997)
    01.60.+q, 28.70.+y, 47.40.−x (all)
  55. L.V. Al’tshuler, R.F. Trunin et alExplosive laboratory devices for shock wave compression studiesPhys. Usp. 39 539–544 (1996)
    28.70.+y, 47.40.−x, 62.20.Fe (all)
  56. L.M. Lyamshev “Lasers in acousticsSov. Phys. Usp. 30 252–279 (1987)
    43.38.Zp, 42.79.Jq, 43.35.Ud, 43.60.−c, 42.62.−b, 42.81.Pa (all)
  57. S.M. Stishov “Recent events in the physics of high pressuresSov. Phys. Usp. 22 283–285 (1979)
    62.50.+p, 71.30.+h, 07.35.+k (all)
  58. 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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