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Issue 4, 2024
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PACS numbers

28.52.−s Fusion reactors 28.65.+a Accelerator-driven transmutation of nuclear waste 89.30.−g Fossil fuels and nuclear power 89.60.−k Environmental studies 92.70.−j Global change
  1. Yu.S. Nechaev, E.A. Denisov et alMethod of thermal desorption study of hydrogen states in carbon materials and nanomaterials66 936–942 (2023)
    61.46.−w, 61.48.−c, 68.43.−h, 89.30.−g (all)
  2. A.M. Sergeev, T. Tajima “Preface to the special issue of the journal "Physics-Uspekhi" ("Uspekhi Fizicheskikh Nauk"), dedicated to the publication of the materials of the forum 'USPEKHI-2021' 65 1115–1117 (2022)
    01.10.Fv, 01.30.Cc, 01.75.+m, 89.30.−g, 89.60.−k, 92.70.−j (all)
  3. Forum 'USPEKHI-2021': Climate change and global energy issues (Joint Scientific session of the Physical Sciences Division, Chemistry and Materials Sciences Division, Division of Earth Sciences and Division of Energetics, Machinery, Mechanical Engineering and Control Processes of the Russian Academy of Sciences, January 19, 2021)65 1118–1118 (2022)
    01.10.−m, 01.10.Fv, 89.30.−g, 89.60.−k, 92.70.−j (all)
  4. T. Tajima, A. Necas et alEast meets West again in order to tackle the global energy crises65 1193–1203 (2022)
    28.52.−s, 28.65.+a, 89.30.−g, 89.60.−k, 92.70.−j, 92.70.M (all)
  5. M.L. Shmatov “Igniting a microexplosion by a microexplosion and some other controlled thermonuclear fusion scenarios with neutronless reactions62 70–81 (2019)
    25.60.Pj, 28.52.−s, 28.52.Cx, 52.57.Bc (all)
  6. A.A. Ivanov, V.V. Prikhodko “Gas dynamic trap: experimental results and future prospects60 509–533 (2017)
    28.52.−s, 52.50.−b, 52.55.Jd (all)
  7. D.V. Yurov, V.V. Prikhodko “Hybrid systems for transuranic waste transmutation in nuclear power reactors: state-of-the art and future prospects57 1118–1129 (2014)
    28.41.−i, 28.65.+a, 29.25.Dz, 52.55.Fa, 52.55.Jd (all)
  8. R.I. Nigmatulin, R.T. Lahey (Jr.) et alOn thermonuclear processes in cavitation bubbles57 877–890 (2014)
    28.52.−s, 47.40.Nm, 52.50.Lp (all)
  9. From the history of physics (Scientific session of the General Meeting of the Physical Sciences Division of the Russian Academy of Sciences, 17 December 2012)56 486–530 (2013)
    01.10.Fv, 01.65.+g, 04.20.−q, 28.52.−s, 28.70.+y, 42.79.Gn, 42.81.Qb, 89.20.Dd, 95.35.+d, 95.55.−n, 98.80.−k (all)
  10. R.I. Ilkaev “Major stages of the Atomic Project56 502–509 (2013)
    01.10.Fv, 01.65.+g, 28.52.−s, 28.70.+y (all)
  11. Commemoration of the 90th anniversary of the birth of Andrei Dmitrievich Sakharov (Scientific session of the Physical Sciences Division, Russian Academy of Sciences, 25 May 2011)55 169–216 (2012)
    01.10.Fv, 01.60.+q, 01.65.+g, 01.75.+m, 04.30.−w, 04.70.−s, 28.52.−s, 28.70.+y, 52.55.Fa, 95.36.+x, 98.70.Vc, 98.80.Cq, 98.80.−k (all)
  12. E.A. Azizov “Tokamaks: from A D Sakharov to the present (the 60-year history of tokamaks)55 190–203 (2012)
    01.65.+g, 28.52.−s, 52.55.Fa (all)
  13. The climate of the Earth (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 12 April 2011)55 103–108 (2012)
    01.10.Fv, 89.60.−k, 92.60.Ry, 92.70.−j (all)
  14. A.V. Byalko “Relaxation theory of climate55 103–108 (2012)
    89.60.−k, 92.60.Ry, 92.70.−j (all)
  15. 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)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)
  16. R.I. Ilkaev “Fundamental physics research at the All-Russian Research Institute of Experimental Physics54 387–392 (2011)
    01.65.+g, 28.52.−s, 28.70.+y (all)
  17. V.E. Fortov, A.A. Makarov “Avenues for the innovative development of energetics in the world and in Russia52 1249–1265 (2009)
    89.20.Bb, 89.30.−g, 89.60.−k (all)
  18. S.V. Mirnov “Academician B B Kadomtsev and the International Thermonuclear Experimental Reactor (ITER)52 725–729 (2009)
    01.65.+g, 28.52.−s, 52.55.Fa (all)
  19. L.M. Kovrizhnykh “The current status of the stellarator program52 730–735 (2009)
    01.65.+g, 28.52.−s, 52.55.Hc (all)
  20. N.A. Popov, V.A. Shcherbakov et alThermonuclear fusion in the explosion of a spherical charge (the problem of a gas-dynamic thermonuclear fusion)51 1047–1053 (2008)
    01.65.+g, 28.52.−s (all)
  21. Yu.S. Nechaev “The nature, kinetics, and ultimate storage capacity of hydrogen sorption by carbon nanostructures49 563–591 (2006)
    61.46.−w, 61.48.+e, 68.43.−h, 89.30.−g (all)
  22. G.I. Dimov “The ambipolar trap48 1129–1149 (2005)
    28.52.−s, 52.25.−b, 52.55.−s (all)
  23. O.N. Krokhin “Laser fusion: state of the art and prospects45 1305–1306 (2002)
    28.52.−s, 52.57.−z (all)
  24. V.N. Tsytovich, J. Winter “On the role of dust in fusion devices41 815–822 (1998)
    28.52.−s, 52.40.Hf, 52.55.−s, 81.90.+s (all)
  25. B.L. Al’tshuler “The scientific works of A. D. Sakharov34 (5) 362–374 (1991)
    52.55.Fa, 28.52.−s, 98.80.Cq, 11.30.Er, 04.60.−m, 11.25.−w (all)
  26. D.D. Ryutov “Open-ended traps31 300–327 (1988)
    52.55.Jd, 52.55.Lf, 52.35.Py, 52.25.Vy, 28.52.−s (all)
  27. L.M. Kovrizhnykh “Stellarators27 646–646 (1984)
    52.55.Hc, 28.52.−s (all)
  28. R.Z. Sagdeev “Laser Thermonuclear Fusion and Parametric Instabilities16 557–559 (1974)
    52.35.Py, 28.52.−s, 52.80.Hc (all)
  29. I.V. Kurchatov “Certain results obtained in research on controlled thermonuclear reactions in the U.S.S.R4 274–278 (1961)
    52.55.Jd, 28.52.−s (all)
  30. L.A. Artsimovich “Research on controlled thermonuclear reactions in the U.S.S.R.1 191–207 (1958)
    52.55.Lf, 25.60.Pj, 52.30.−q, 28.52.−s, 52.50.Dg (all)
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