PACS numbers

42.79.Pw Imaging detectors and sensors 79.60.Jv Interfaces; heterostructures; nanostructures 85.60.Gz Photodetectors 88.40.hj Efficiency and performance of solar cells
  1. I.V. Antonova “2D printing technologies using graphene based materials60 204–218 (2017)
    68.65.Pq, 73.61.−r, 79.60.Jv (all)
  2. I.G. Neizvestnyi, A.E. Klimov, V.N. Shumsky “Photon far-infrared and sub-millimeters array detectors58 952–962 (2015)
    42.79.Pw, 85.60.Gz (all)
  3. I.E. Protsenko, A.V. Uskov “Photoemission from metal nanoparticles55 508–518 (2012)
    42.79.Pw, 79.60.Jv, 85.60.Gz, 88.40.hj (all)
  4. W.S. Boyle “CCD — An extension of man’s view53 (12) (2010)
    01.30.Bb, 85.30.−z, 85.60.Gz (all)
  5. G.E. Smith “The invention and early history of the CCD53 (12) (2010)
    01.30.Bb, 85.30.−z, 85.60.Gz (all)
  6. V.P. Bykov “Photocounts and laser detection of weak optical signals48 469–486 (2005)
    42.50.−p, 84.47.+w, 85.60.Gz (all)
  7. V.F. Elesin, Yu.V. Kopaev “’Stark ladder’ laser with a coherent electronic subsystem46 752–755 (2003)
    73.23.−b, 79.60.Jv (all)
  8. V.P. Ponomarenko “Cadmium mercury telluride and the new generation of photoelectronic devices46 629–644 (2003)
    01.65.+g, 07.57.Kp, 85.60.Gz (all)
  9. B.A. Volkov, L.I. Ryabova, D.R. Khokhlov “Mixed-valence impurities in lead telluride-based solid solutions45 819–846 (2002)
    71.23.An, 71.55.−i, 85.60.Gz (all)
  10. E.E. Vdovin, Yu.N. Khanin et alScientific session of the Division of General Physics and Astronomy of the Russian Academy of Sciences (30 May 2001)44 1299–1301 (2001)
    71.24.+q, 73.40.Gk, 73.61.Ey, 73.61.Tm, 71.45.Gm, 71.55.Eq, 73.20.Mf, 73.61.−r, 85.30.Vw, 85.30.Tv, 03.75.Fi, 71.35.Lk, 71.35.Ji, 29.25.Bx, 29.27.Hj, 79.60.Jv (all)
  11. A.V. Subashiev “Effective polarized electron emitters based on semiconductor nanostructures44 1310–1312 (2001)
    29.25.Bx, 29.27.Hj, 79.60.Jv (all)
  12. A.T. Rakhimov “Autoemission cathodes (cold emitters) on nanocrystalline carbon and nanodiamond films: physics, technology, applications43 926–929 (2000)
    79.60.Jv, 79.70.+q, 85.45.−w, 85.60.Pg (all)
  13. Z.F. Krasil’nik, A.V. Novikov “Optical properties of strained Si1-xGex and Si1-x-yGexCy heterostructures43 295–298 (2000)
    79.60.Jv, 85.30.Vw, 85.60.−q (all)
  14. V.M. Agranovich “Excitons and optical nonlinearities in hybrid organic-inorganic nanostructures42 284–284 (1999)
    71.35.+z, 79.60.Jv
  15. V.P. Bykov, A.V. Gerasimov, V.O. Turin “Coulomb disintegration of weak electron fluxes and the photocounts38 911–921 (1995)
    79.60.Bm, 42.50.Ct, 07.60.Dq, 85.60.Gz (all)
  16. D.N. Klyshko “A simple method of preparing pure states of an optical field, of implementing the Einstein-Podolsky-Rosen experiment, and of demonstrating the complementarity principle31 74–85 (1988)
    42.50.Dv, 42.79.Pw (all)
  17. D.N. Klyshko, A.N. Penin “The prospects of quantum photometry30 716–723 (1987)
    07.60.Dq, 06.20.fb, 85.60.Gz, 85.60.Ha (all)
  18. D.N. Klyshko, A.N. Penin “Quantum photometry using parametric scattering of light28 92–93 (1985)
    07.60.Dq, 77.84.−s, 77.22.Ch, 78.35.+c, 85.60.Gz (all)
  19. B.S. Rinkevicius “The Doppler method of measuring local velocities using lasers16 712–725 (1974)
    47.80.Cb, 47.15.−x, 41.20.Jb, 47.85.Dh, 85.60.Gz, 47.27.−i (all)
  20. É.S. Voronin “Nonlinear Transformation of Images and Infrared Holography13 415–416 (1970)
    07.57.Kp, 42.79.Pw, 42.79.Ls, 42.65.−k, 42.40.Lx (all)
© 1918–2020 Uspekhi Fizicheskikh Nauk
Email: ufn@ufn.ru Editorial office contacts About the journal Terms and conditions