PACS numbers

07.60.−j Optical instruments and equipment 42.30.Wb Image reconstruction; tomography 43.35.Sx Acoustooptical effects, optoacoustics, acoustical visualization, acoustical microscopy, and acoustical holography 43.35.Ud Thermoacoustics, high temperature acoustics, photoacoustic effect 78.20.N− Thermo-optic effects 78.20.Pa Photoacoustic effects 78.20.nb Photothermal effects 81.70.Cv Nondestructive testing: ultrasonic testing, photoacoustic testing 82.80.Kq Energy-conversion spectro-analytical methods (e.g., photoacoustic, photothermal, and optogalvanic spectroscopic methods) 87.19.Pp Biothermics and thermal processes in biology
  1. E.N. Ragozin, E.A. Vishnyakov et alSoft X-ray spectrometers based on aperiodic reflection gratings and their application64 495–514 (2021)
    07.60.−j, 07.85.−m, 07.85.Fv, 07.85.Nc, 07.87.+v, 42.79.−e (all)
  2. V.N. Polkovnikov, N.N. Salashchenko et alBeryllium-based multilayer X-ray optics63 83–95 (2020)
    07.60.−j, 07.85.Fv, 42.79.−e, 68.35.Ct, 68.35.Fx, 68.47.De, 68.55.A, 68.65.Ac, 81.15.−z (all)
  3. D.V. Kazantsev, E.V. Kuznetsov et alApertureless near-field optical microscopy60 259–275 (2017)
    07.60.−j, 07.79.Fc, 61.46.−w, 68.37.Ps, 68.65.Pq, 85.30.De, 87.64.−t (all)
  4. I.V. Turchin “Methods of biomedical optical imaging: from subcellular structures to tissues and organs59 487–501 (2016)
    42.25.Dd, 42.62.Be, 43.35.Sx, 87.64.−t, 87.64.Cc (all)
  5. A.S. Pirozhkov, E.N. Ragozin “Aperiodic multilayer structures in soft X-ray optics58 1095–1105 (2015)
    07.60.−j, 42.30.−d, 42.79.−e (all)
  6. A.V. Shchelokova, I.V. Melchakova et alExperimental realization of invisibility cloaking58 167–190 (2015)
    41.20.Jb, 42.25.Bs, 42.30.Wb, 43.20.Gp (all)
  7. G.B. Malykin “Sagnac effect in ring lasers and ring resonators. How does the refraction index of the optical medium influence the sensitivity to rotation?57 714–720 (2014)
    03.30.+p, 07.60.−j, 42.60.Da (all)
  8. S.P. Vyatchanin “Parametric oscillatory instability in laser gravitational antennas55 302–305 (2012)
    04.80.Nn, 07.60.−j, 42.60.−v (all)
  9. A.E. Dubinov, L.A. Mytareva “Is singularity-free cloaking possible? New cloaking ideas (a reply to comments on the paper “Invisible cloaking of material bodies using the wave flow method” [Phys. Usp. 53 455 (2010)])55 315–318 (2012)
    41.20.Jb, 42.25.Bs, 42.30.Wb, 43.20.Gp (all)
  10. A.E. Dubinov, L.A. Mytareva “Invisible cloaking of material bodies using the wave flow method53 455–479 (2010)
    41.20.Jb, 42.25.Bs, 42.30.Wb, 43.20.Gp (all)
  11. V.P. Tychinskii “Dynamic phase microscopy: is a “dialogue” with the cell possible?50 513–528 (2007)
    07.60.−j, 87.16.−b, 87.64.−t (all)
  12. V.E. Kurochkin “Methods and tools for the express immunoassay. A new approach to solving the problem49 965–971 (2006)
    01.10.Fv, 07.60.−j, 87.64.−t (all)
  13. Yu.N. Kul’chin “Adaptive distributed optoelectronic information-measuring systems46 867–872 (2003)
    07.07.Dr, 42.30.Wb
  14. M.I. Lomaev, V.S. Skakun et alExcilamps: efficient sources of spontaneous UV and VUV radiation46 193–209 (2003)
    07.60.−j, 42.72.Bj, 52.80.−s (all)
  15. L.M. Lyamshev “Radiation acoustics35 (4) 276–302 (1992)
    62.65.+k, 43.35.Ud, 43.35.Sx, 43.35.Zc (all)
  16. S.A. Akhmanov, V.E. Gusev “Laser excitation of ultrashort acoustic pulses: New possibilities in solid-state spectroscopy, diagnostics of fast processes, and nonlinear acoustics35 (3) 153–191 (1992)
    43.35.Ud, 42.62.Fi, 42.65.Re, 42.60.Jf, 43.25.−x, 01.30.Rr (all)
  17. S.V. Egerev, L.M. Lyamshev, O.V. Puchenkov “Laser dynamic optoacoustic diagnostics of condensed media33 (9) 739–762 (1990)
    81.70.Cv, 42.62.Cf (all)
  18. G.A. Askar’yan, A.V. Yurkin “New developments in optoacoustics32 349–356 (1989)
    43.30.−k, 43.35.Ud (all)
  19. L.M. Lyamshev “Lasers in acoustics30 252–279 (1987)
    43.38.Zp, 42.79.Jq, 43.35.Ud, 43.60.−c, 42.62.−b, 42.81.Pa (all)
  20. L.M. Lyamshev “Optoacoustic sources of sound24 977–995 (1981)
    78.20.Hp, 43.35.Sx (all)
  21. Yu.V. Gulyaev, V.V. Proklov, G.N. Shkerdin “Diffraction of light by sound in solids21 29–57 (1978)
    43.35.Sx, 78.20.Hp (all)
  22. I.L. Fabelinskii, V.S. Starunov, D.V. Vlasov “Influence of Propagation Conditions of Longitudinal and Transverse Sound on the Spectrum of Thermal and Stimulated Scattering of Light (Two New Phenomena)18 805–805 (1975)
    43.35.Ud, 43.35.Sx (all)
  23. O.A. Shustin, V.V. Korchazhkih et alLecture demonstrations with an argon laser17 439–440 (1974)
    42.55.Lt, 42.60.Jf, 42.40.My, 42.30.Wb (all)
  24. I.A. Deryugin, V.N. Kurashov et alPolarization effects in holography15 804–811 (1973)
    42.40.Ht, 42.40.Eq, 42.30.Wb, 42.25.Ja (all)
  25. I.S. Klimenko, G.V. Skrotskii “Focused-image holography16 88–98 (1973)
    42.40.Ht, 42.40.Kw, 42.30.Wb (all)
  26. O.A. Shustin “A lecture demonstration on holography14 668–668 (1972)
    42.40.Lx, 42.30.Wb (all)
  27. V.V. Aristov, V.Sh. Shekhtman “PROPERTIES OF THREE-DIMENSIONAL HOLOGRAMS14 263–277 (1971)
    42.40.Kw, 42.40.My, 42.30.Wb, 42.70.Ln, 42.40.Ht, 42.40.Lx (all)
  28. I.L. Fabelinskii “New optical methods of studying rapid processes14 341–349 (1971)
    42.65.Re, 07.60.−j, 42.60.−v, 42.72.−g, 42.65.Hw, 42.65.Es (all)
  29. F. Gerasimov, Yu.M. Kagan et alSERGEĬ ÉDUARDOVICH FRISH (on his 70th Birthday)12 438–439 (1969)
    01.60.+q, 07.60.−j, 42.50.−p, 52.50.Jm, 51.70.+f, 32.30.−r (all)
  30. S.I. Vavilov “Galileo in the history of optics7 596–616 (1965)
    07.60.−j, 42.15.−i, 95.55.Br (all)
  31. S.G. Rautian “Real spectral apparatus1 245–273 (1958)
    07.57.Ty, 07.60.−j (all)
  32. A.P. Porfirev, A.A. Kuchmizhak et alPhase singularities and optical vortices in photonics”, accepted
    07.60.−j, 42.70.−a, 42.62.−b, 42.79.−e, 42.82.−m, 78.20.Fm (all)
  33. M.A. Proskurnin, V.R. Khabibullin et alPhotothermal and optoacoustic spectroscopy: current state and outlooks”, accepted
    78.20.nb, 78.20.N−, 07.60.−j, 42.30.Wb, 43.35.Ud, 78.20.Pa, 82.80.Kq, 81.70.Cv, 87.19.Pp, 43.35.Sx (all)
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