PACS numbers

28.60.+s Isotope separation and enrichment
  1. A. Khorshidi “Molybdenum-99 production via lead and bismuth moderators and milli-structure-98Mo samples by indirect production technique using Monte Carlo method62 931–940 (2019)
    28.60.+s, 29.25.−t, 87.57.U− (all)
  2. Forty years of the Institute for Nuclear Research (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 22 December 2010)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,,, 96.60.Vg (all)
  3. B.L. Zhuikov “Isotope production at the Institute for Nuclear Research, Russian Academy of Sciences: current status and prospects54 968–974 (2011)
    28.60.+s, 29.20.−c, 87.56.B− (all)
  4. Yu.V. Martynenko “Electromagnetic isotope separation method and its heritage52 1266–1272 (2009)
    01.65.+g, 28.60.+s, 29.25.Ni (all)
  5. D.A. Dolgolenko, Yu.A. Muromkin “Plasma isotope separation based on ion cyclotron resonance52 345–357 (2009)
    28.60.+s, 52.20.−j, 52.25.Xz (all)
  6. G.N. Makarov “On the possibility of selecting molecules embedded in superfluid helium nanodroplets (clusters)49 1131–1150 (2006)
    28.60.+s, 33.80.−b, 36.40.−c, 42.62.Fi (all)
  7. E.A. Ryabov “Laser isotope separation by IR multiphoton dissociation of molecules47 627–629 (2004)
    28.60.+s, 33.80.Gj, 33.80.Wz (all)
  8. V.S. Letokhov “Selective action of laser radiation on matter21 405–428 (1978)
    28.60.+s, 82.50.−m, 32.80.−t, 33.80.−b (all)
  9. N.G. Basov, E.M. Belenov et alNew methods of isotope separation20 209–225 (1977)
    28.60.+s, 31.30.Gs, 42.60.Kg (all)
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