PACS numbers

44.10.+i Heat conduction 44.40.+a Thermal radiation
  1. E.D. Eidelman “Thermoelectric effect and thermoelectric generator based on carbon nanostructures: achievements and prospects64 535–557 (2021)
    07.20.Pe, 44.10.+i, 65.80.Ck, 72.20.Pa, 73.40.Ns (all)
  2. V.Yu. Khomich, V.A. Shmakov “Large-sized mirrors for power optics62 249–256 (2019)
    42.79.−e, 44.10.+i (all)
  3. G.V. Dedkov, A.A. Kyasov “Fluctuation-electromagnetic interaction under dynamic and thermal nonequilibrium conditions60 559–585 (2017)
    41.20.−q, 42.50.Wk, 44.40.+a (all)
  4. V.B. Zon, B.A. Zon et alConversion of surface plasmon polaritons into photons: visual observation54 291–292 (2011)
    44.40.+a, 71.36.+c (all)
  5. S.Yu. Mesnyankin, A.G. Vikulov, D.G. Vikulov “Solid-solid thermal contact problems: current understanding52 891–914 (2009)
    44.10.+i, 66.70.Df, 72.15.Eb (all)
  6. A.I. Volokitin, B.N.J. Persson “Radiative heat transfer and noncontact friction between nanostructures50 879–906 (2007)
    44.40.+a, 65.80.+n, 68.65.−k (all)
  7. I.A. Vasil’eva “Stationary radiation of objects with scattering media44 1255–1282 (2001)
    44.30.+v, 44.40.+a, 95.30.Jx (all)
  8. D.A. Kazenin “Heat conduction in bodies with linear thermoelasticity30 548–548 (1987)
    44.10.+i, 62.20.Dc (all)
  9. N.A. Leontovich “Maximum efficiency of direct utilization of radiation18 963–964 (1975)
    44.40.+a, 44.10.+i (all)
  10. I.Yu. Kobzarev, L.B. Okun “On the photon mass11 338–341 (1968)
    42.50.−p, 12.20.Ds, 44.40.+a (all)
  11. M.M. Gurevich “Spectral distribution of radiant energy5 908–912 (1963)
  12. M.M. Gurevich “Letter to the editor6 331–331 (1963)
  13. R.A. Sapozhnikov “Spectral distribution of radiant energy3 172–174 (1960)
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