PACS numbers

42.70.Hj Laser materials 42.81.Qb Fiber waveguides, couplers, and arrays 61.72.Tt Doping and impurity implantation in germanium and silicon 66.30.Hs Self-diffusion and ionic conduction in nonmetals
  1. E.M. Dianov “On the threshold of the peta era56 486–492 (2013)
    01.10.Fv, 01.65.+g, 42.79.Gn, 42.81.Qb (all)
  2. 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)
  3. A.R. Chelyadinskii, F.F. Komarov “Defect-impurity engineering in implanted silicon46 789–820 (2003)
    61.72.Cc, 61.72.Tt, 61.72.Yx (all)
  4. B.P. Antonyuk, V.B. Antonyuk “Self-organization of excitations in Ge-doped silica fibers and its role in second harmonic generation44 53–70 (2001)
    42.81.Qb, 61.43.Fs, 72.20.Jv (all)
  5. V.G. Plekhanov “Isotope engineering43 1147–1154 (2000)
    42.70.Hj, 42.81.Qb, 61.72.Tt, 66.30.Hs (all)
  6. B.N. Mukashev, Kh.A. Abdullin, Yu.V. Gorelkinskii “Metastable and bistable defects in silicon43 139–150 (2000)
    61.72.−y, 61.72.Tt, 61.80.−x, 71.55.−i (all)
  7. L.D. Bakhrakh, A.A. Bliskavitskii “Optical-microwave beam formation methods for superwideband antennas35 (12) 1086–1088 (1992)
    84.40.Ua, 84.40.Ba, 41.20.Jb, 42.81.Qb (all)
  8. P.G. Eliseev “Laser engineering33 (2) 168–168 (1990)
    42.55.Rz, 42.60.By, 42.70.Hj, 42.70.Ce (all)
  9. Yu.Yu. Stoilov “Bleaching wave lasers utilizing complex organic compounds31 354–363 (1988)
    42.55.Mv, 42.70.Hj, 78.40.Me, 78.55.Bq (all)
  10. B.A. Volkov “Semiconductor encyclopedia—once again31 384–384 (1988)
    01.30.Kj, 61.72.Tt, 61.72.Vv, 72.20.−i, 61.66.Fn (all)
  11. V.I. Simonov “Structural studies of crystals with unique physical properties30 1096–1098 (1987)
    61.66.Fn, 61.10.Nz, 64.70.Kb, 66.30.Hs (all)
  12. S.A. Akhmanov, V.A. Vysloukh, A.S. Chirkin “Self-action of wave packets in a nonlinear medium and femtosecond laser pulse generation29 642–647 (1986)
    42.65.Re, 42.65.Jx, 42.65.Tg, 42.60.Jf, 42.81.Qb, 42.81.Dp (all)
  13. A.M. Prokhorov “A new generation of solid-state lasers29 3–19 (1986)
    42.55.Rz, 42.60.By, 42.70.Hj, 42.70.Ce, 42.60.Gd, 42.60.Lh (all)
  14. N.G. Basov, P.G. Eliseev, Yu.M. Popov “Semiconductor lasers29 20–30 (1986)
    42.55.Px, 42.60.By, 42.70.Hj, 42.70.Nq (all)
  15. I.A. Shcherbakov “Energy transfer in solids, new active media for solid-state lasers28 530–531 (1985)
    42.55.Rz, 42.70.Hj, 42.60.Jf, 42.60.Lh (all)
  16. A.A. Kaminskii “Physics and spectroscopy of laser crystals27 548–550 (1984)
    42.70.Hj, 78.55.Hx, 78.45.+h (all)
  17. A.S. Semenov, V.L. Smirnov “Supplement of the translation of Kogelnik’s ’Introduction to Integrated Optics’20 344–348 (1977)
    42.79.Jd, 42.81.Bm, 42.81.Qb, 42.82.−m, 42.82.Et (all)
  18. N.G. Basov, É.M. Belenov et alHigh-pressure carbon dioxide electrically excited preionization lasers18 705–721 (1975)
    42.55.Lt, 42.60.By, 42.70.Hj, 51.70.+f, 51.50.+v (all)
  19. P.G. Kryukov, V.S. Letokhov “Propagation of a Light pulse in a Resonantly amplifying (absorbing) medium12 641–672 (1970)
    42.65.Re, 42.60.Fc, 42.60.Gd, 42.50.Md, 42.60.Da, 42.70.Hj (all)
  20. V.V. Fadeev “Ultraviolet Lasers Using Organic Scintillators13 409–410 (1970)
    42.55.Ks, 42.55.Rz, 42.70.Mp, 42.70.Hj, 42.70.Jk, 42.72.Bj (all)
  21. A.A. Urusovskaya “Electric effects associated with plastic deformation of ionic crystals11 631–643 (1969)
    62.20.Fe, 81.40.Lm, 66.30.Hs (all)
  22. B.I. Stepanov, A.N. Rubinov “Lasers based on solutions of organic dyes11 304–319 (1968)
    42.55.Mv, 42.70.Hj, 42.60.Jf, 42.60.Fc, 42.60.Da (all)
  23. L.D. Derkacheva, G.V. Peregudov, A.I. Sokolovskaya “Rare-earth chelate lasers10 91–99 (1967)
    42.55.−f, 42.60.Jf, 42.70.Hj, 42.70.Jk (all)
  24. Ya.E. Geguzin, N.N. Ovcharenko “Surface energy and surface processes in solids5 129–157 (1962)
    68.35.Md, 68.35.Ct, 68.35.Fx, 66.30.Hs, 68.15.+e, 68.08.−p (all)
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