42.62.−b Laser applications
42.79.Jq Acousto-optical devices
42.81.Pa Sensors, gyros
43.35.Ud Thermoacoustics, high temperature acoustics, photoacoustic effect
43.38.Zp Acoustooptic and photoacoustic transducers
43.60.−c Acoustic signal processing
S.V. Gudkov, R.M. Sarimov et al “Modern physical methods and technologies in agriculture ” 67 194–210 (2024)
42.62.−b , 42.68.Wt , 52.77.−j (all )
G.N. Makarov “New approaches to molecular laser separation of uranium isotopes ” 67 44–54 (2024)
07.77.Gx , 28.60.+s , 33.80-b, 36.40.−c , 42.62.−b , 42.62.Fi , 82.50.Bc (all )
V.D. Zvorykin “N G Basov's role in the development of excimer lasers: a half-century history from the launch of the first Xe2 laser at the Lebedev Physical Institute to modern laser systems ” 66 1037–1058 (2023)
42.55.Lt , 42.60.−v , 42.62.−b (all )
A.B. Dyachkov, A.A. Gorkunov et al “Isotopically selective photoionization for the production of the medical radioisotope 177 Lu ” 66 518–533 (2023)
28.60.+s , 42.62.−b , 87.56.−v (all )
O.V. Butov, K.A. Tomyshev et al “Tilted fiber Bragg gratings and their sensing applications ” 65 1290–1302 (2022)
07.60.Vg , 42.25.−p , 42.81.Pa (all )
A.P. Porfirev, A.A. Kuchmizhak et al “Phase singularities and optical vortices in photonics ” 65 789–811 (2022)
07.60.−j , 42.62.−b , 42.70.−a , 42.79.−e , 42.82.−m , 78.20.Fm (all )
B.V. Sokolenko, N.V. Shostka, O.S. Karakchieva “Optical tweezers and manipulators. Modern concepts and future prospects ” 65 812–833 (2022)
42.25.−p , 42.40.My , 42.50.Wk , 42.62.−b , 42.62.Be , 42.79.−e (all )
P.V. Zinin, K.M. Bulatov et al “Remote measurement of the temperature distribution on the surface of solids under high-power laser irradiation ” 65 852–863 (2022)
07.35.+k , 07.60.−j , 42.79.Jq (all )
G.N. Makarov “Towards molecular laser separation of uranium isotopes ” 65 531–566 (2022)
07.77.Gx , 28.60.+s , 33.80.−b , 36.40.−c , 42.62.−b , 42.62.Fi , 82.50.Bc (all )
M.A. Proskurnin, V.R. Khabibullin et al “Photothermal and optoacoustic spectroscopy: state of the art and prospects ” 65 270–312 (2022)
07.60.−j , 42.30.Wb , 43.35.Sx , 43.35.Ud , 78.20.nb , 78.20.N− , 78.20.Pa , 81.70.Cv , 82.80.Kq , 87.19.Pp (all )
K.B. Yushkov, V.Ya. Molchanov, E.A. Khazanov “Uncertainty relation for modulated broadband laser pulses ” 64 828–835 (2021)
42.65.Re , 42.79.Jq (all )
G.N. Makarov “New results for laser isotope separation using low-energy methods ” 63 245–268 (2020)
07.77.Gx , 33.80.−b , 36.40.−c , 42.62.−b , 42.62.Fi , 82.40.Fp , 82.50.Bc (all )
P.G. Kryukov “Lasers and fiber optics for astrophysics ” 61 1072–1078 (2018)
42.62.−b , 42.81.−i , 97.82.−j (all )
V.P. Vasiliev “Current state of high-accuracy laser ranging ” 61 707–713 (2018)
06.30.Bp , 42.62.−b , 91.10.Fc (all )
M.N. Sapozhnikov “Fifty years of selective laser spectroscopy of solids: a history, general principles and applications ” 61 (4) (2018)
42.62.−b , 42.62.Fi , 61.43.−j , 61.72.−y , 63.20.kp , 78.20.−e , 78.40.Me , 78.55.−m , 78.66.−w , 87.15.−v , 87.15.M− (all )
A.M. Kalashnikova, A.V. Kimel, R.V. Pisarev “Ultrafast optomagnetism ” 58 969–980 (2015)
42.62.−b , 75.40.Gb , 75.50.Ee , 75.78.Jp , 78.20.Ls , 78.30.−j (all )
P.G. Kryukov “Femtosecond lasers for astrophysics ” 58 762–771 (2015)
42.62.−b , 97.82.−j , 98.80.−k (all )
G.N. Makarov “Low energy methods of molecular laser isotope separation ” 58 670–700 (2015)
07.77.Gx , 33.80.−b , 36.40.−c , 42.62.−b , 42.62.Fi , 82.40.Fp , 82.50.Bc (all )
S.S. Alimpiev, A.A. Grechnikov, S.M. Nikiforov “New approaches to the laser mass spectrometry of organic samples ” 58 191–195 (2015)
33.80.−b , 42.62.−b , 81.70.−q (all )
A.V. Mitrofanov, D.A. Sidorov-Biryukov et al “Subterawatt femtosecondpulses in themid-infrared: A new spatiotemporal dynamics of high-power electromagnetic fields ” 58 89–94 (2015)
42.25.−p , 42.62.−b , 42.65.Re (all )
P.G. Kryukov “Continuous-wave femtosecond lasers ” 56 849–867 (2013)
42.55.−f , 42.62.−b , 42.65.−k (all )
A.V. Naumov “Low temperature spectroscopy of organic molecules in solid matrices: from the Shpolsky effect to the laser luminescent spectromicroscopy for all effectively emitting single molecules ” 56 605–622 (2013)
42.30.−d , 42.62.−b , 61.43.−j , 61.72.−y , 78.20.−e , 78.47.−p , 78.55.−m (all )
“Electromagnetic and acoustic waves in metamaterials and structures (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 24 February 2011) ” 54 1161–1192 (2011)
01.10.Fv , 03.65.Xp , 41.20.Jb , 42.25.−p , 43.20.+g , 43.20.Dk , 43.20.Fn , 43.25.+y , 43.30.+m , 43.60.−c , 43.60.Pt , 78.20.Ci , 78.67.−n , 81.05.Xi, 81.05.Zx , 87.50.Y (all )
V.G. Petnikov, A.A. Stromkov “Focusing of low-frequency sound fields on the ocean shelf ” 54 1176–1181 (2011)
43.20.+g , 43.30.+m , 43.60.−c (all )
V.L. Bratman, A.G. Litvak, E.V. Suvorov “Mastering the terahertz domain: sources and applications ” 54 837–844 (2011)
07.57.−c , 42.62.−b , 84.40.Ik (all )
“Celebrating 50 years of the laser (Scientific session of the General Meeting of the Physical Sciences Division of the Russian Academy of Sciences, 13 December 2010) ” 54 837–870 (2011)
01.10.Fv , 03.75.−b , 07.57.−c , 32.30.Jc , 37.10.−x , 37.10.De , 37.10.Gh , 42.62.−b , 42.65.−k , 42.70.−a , 42.82.−m , 67.85.−d , 78.67.−n , 85.40.−e , 84.40.Ik (all )
N.N. Ledentsov, J.A. Lott “New-generation vertically emitting lasers as a key factor in the computer communication era ” 54 853–858 (2011)
42.62.−b , 42.82.−m , 85.40.−e (all )
“Celebrating the 65th anniversary of the Russian Federal Nuclear Center — All-Russian Research Institute of Experimental Physics (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 6 October 2010) ” 54 387–427 (2011)
01.10.Fv , 01.65.+g , 05.70.Ce , 07.35.+k , 07.55.Db , 28.52.−s , 28.70.+y , 42.55.−f , 42.62.−b , 47.20.−k , 47.27.wj , 47.40.−x , 52.57.−z , 61.05.C− , 64.30.−t , 74.25.−q , 84.30.Ng , 84.70.+p , 85.70.−w (all )
S.G. Garanin “High-power lasers and their applications in high-energy-density physics studies ” 54 415–421 (2011)
42.55.−f , 42.62.−b , 52.57.−z (all )
L.V. Kravchuk “Development of nuclear physics medicine at the Institute for Nuclear Research, RAS ” 53 635–639 (2010)
29.20.−c , 42.62.−b , 87.56.−v (all )
V.E. Fortov “Extreme states of matter on Earth and in space ” 52 615–647 (2009)
07.35.+k , 29.20.−c , 42.62.−b , 97.60.−s (all )
A.A. Kaminskii, Bohaty L et al “New nonlinear laser effects in α-quartz: generation of a two-octave Stokes and anti-Stokes comb and cascaded lasing in the spectral range of the second and third harmonics ” 51 899–909 (2008)
42.62.−b , 42.65.−k , 42.70.Ce (all )
E. Varoquaux, G. Varoquaux “Sagnac effect in superfluid liquids ” 51 205–208 (2008)
03.30.+p , 03.75.−b , 42.81.Pa (all )
N.V. Karlov, V.I. Konov et al “A M Prokhorov: founder of the General Physics Institute ” 50 656–660 (2007)
01.10.Fv , 01.52.+r , 01.65.+g , 42.62.−b (all )
A.V. Andriyash, P.A. Loboda et al “Lasers and high energy density physics at the All-Russian Research Institute of Technical Physics (VNIITF) ” 49 1084–1092 (2006)
01.10.Fv , 42.62.−b , 52.38.−r , 52.50.Jm (all )
A.L. Mikaelyan “From quantum electronics to laser technology (first steps in application) ” 47 1051–1055 (2004)
01.65.+g , 42.55.−f , 42.62.−b (all )
P.A. Apanasevich “Development of laser physics in Belarus ” 47 1056–1058 (2004)
01.65.+g , 42.55.−f , 42.62.−b (all )
A.A. Ivanov, M.V. Alfimov, A.M. Zheltikov “Femtosecond pulses in nanophotonics ” 47 687–704 (2004)
42.55.−f , 42.62.−b , 42.65.Ky , 42.65.Re (all )
E.G. Bessonov, A.V. Vinogradov et al “Laser electron-beam X-ray source for medical applications ” 46 872–876 (2003)
42.62.−b , 87.56.By , 87.59.Dj (all )
I.A. Andronova, G.B. Malykin “Physical problems of fiber gyroscopy based on the Sagnac effect ” 45 793–817 (2002)
03.30.+p , 0.7.60.Vg, 42.81.Pa (all )
I.K. Krasyuk “Application of laser-driven shock waves in studies of thermal and mechanical material properties ” 42 1056–1059 (1999)
42.62.−b , 61.80.Ba (all )
L.M. Lyamshev “Radiation acoustics ” 35 (4) 276–302 (1992)
62.65.+k , 43.35.Ud , 43.35.Sx , 43.35.Zc (all )
S.A. Akhmanov, V.E. Gusev “Laser excitation of ultrashort acoustic pulses: New possibilities in solid-state spectroscopy, diagnostics of fast processes, and nonlinear acoustics ” 35 (3) 153–191 (1992)
43.35.Ud , 42.62.Fi , 42.65.Re , 42.60.Jf , 43.25.−x , 01.30.Rr (all )
G.A. Askar’yan, A.V. Yurkin “New developments in optoacoustics ” 32 349–356 (1989)
43.30.−k , 43.35.Ud (all )
L.M. Lyamshev “Lasers in acoustics ” 30 252–279 (1987)
43.38.Zp , 42.79.Jq , 43.35.Ud , 43.60.−c , 42.62.−b , 42.81.Pa (all )
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) ” 17 805–805 (1975)
43.35.Ud , 43.35.Sx (all )
S.V. Bogdanov, D.V. Sheloput “The Current State of Acoustooptics ” 16 283–284 (1973)
42.79.Jq , 42.79.Hp , 42.79.Ci , 42.79.Fm , 42.79.Ls (all )
V.P. Tychinskii “Powerful gas lasers ” 10 131–152 (1967)
42.55.Lt , 42.60.By , 42.60.Jf , 42.60.Lh , 42.62.−b (all )