Osiko Vyacheslav Vasil'evich

Publications in Math-Net.Ru

1. Study of Yb$^{3+}$ optical centers in fluoride solid solution crystals CaF$_{2}$–SrF$_{2}$–YbF$_{3}$
   
   Optics and Spectroscopy, 128:5 (2020),  607–611
2. Effect of the valence state of ce ions on the phase stability and mechanical properties of the crystals of ZrO$_{2}$-based solid solutions
   
   Fizika Tverdogo Tela, 59:10 (2017),  1914–1919
3. Change in the mechanism of conductivity in ZrO$_2$-based crystals depending on the content of stabilizing Y$_{2}$O$_{3}$ additive
   
   Pisma v Zhurnal Tekhnicheskoi Fiziki, 43:6 (2017),  23–30
4. Selective laser spectroscopy of SrF₂ crystal doped with Pr³⁺ ions
   
   Kvantovaya Elektronika, 46:1 (2016),  68–72
5. Planar fluoride waveguides for amplifiers and lasers
   
   Kvantovaya Elektronika, 45:8 (2015),  717–719
6. Oriented aggregation of particles: 100 years of investigations of non-classical crystal growth
   
   Usp. Khim., 83:12 (2014),  1204–1222
7. Ceramic planar waveguide structures for amplifiers and lasers
   
   Kvantovaya Elektronika, 43:1 (2013),  60–62
8. Structural, spectral-luminescent, and lasing properties of nanostructured Tm : CaF₂ ceramics
   
   Kvantovaya Elektronika, 42:9 (2012),  853–857
9. Nanostructured Tm:CaF₂ ceramics: potential gain media for two micron lasers
   
   Kvantovaya Elektronika, 41:3 (2011),  193–197
10. Efficient conversion of Nd:YAG laser radiationto the eye-safe spectral region by stimulated Raman scatteringin BaWO₄ crystal
    
    Kvantovaya Elektronika, 40:8 (2010),  710–715
11. Qualitative improvement in the lasing performance of PbGa₂S₄ : Dy³⁺ crystals through Na⁺ doping
    
    Kvantovaya Elektronika, 40:7 (2010),  596–598
12. Extra-strong wear-resistant materials based on nanostructured crystals of partially stabilized zirconium dioxide
    
    Mendeleev Commun., 19:3 (2009),  117–122
13. Optical absorption in CaF₂ nanoceramics
    
    Kvantovaya Elektronika, 39:10 (2009),  943–947
14. Technologies of perforation of closely spaced micron holes with the help of neodymium—LiF:F₂^- lasers
    
    Kvantovaya Elektronika, 39:4 (2009),  385–387
15. Study of diffraction-coupled lasing in a set of lasers with self-pumped phase-conjugate mirrors on gain gratings in the case of short-range coupling
    
    Kvantovaya Elektronika, 39:1 (2009),  31–35
16. Conversion of the luminescence of laser dyes in opal matrices to stimulated emission
    
    Kvantovaya Elektronika, 38:7 (2008),  665–669
17. Lasing in diode-pumped fluoride nanostructure F₂^-:LiF colour centre ceramics
    
    Kvantovaya Elektronika, 37:11 (2007),  989–990
18. Efficiency of population of the ⁴I_13/2 level of the Er³⁺ ion and the possibility of lasing at 1.5 μm in Yb, Er:YAG at high temperatures
    
    Kvantovaya Elektronika, 37:10 (2007),  971–973
19. Efficient lasing in diode-pumped Yb³⁺:CaF₂–SrF₂ solid-solution single crystals
    
    Kvantovaya Elektronika, 37:10 (2007),  934–937
20. Oscillation dynamics of a phase-locked three-channel holographic Nd:YAG laser system
    
    Kvantovaya Elektronika, 37:3 (2007),  255–258
21. Study of the self-phase-locking of a pulsed three-channel holographic Nd:YAG laser by gain gratings
    
    Kvantovaya Elektronika, 37:2 (2007),  143–146
22. Laser drilling of superdeep micron holes in various materials with a programmable control of laser radiation parameters
    
    Kvantovaya Elektronika, 37:1 (2007),  99–102
23. Comparison of the optical parameters of a CaF₂ single crystal and optical ceramics
    
    Kvantovaya Elektronika, 37:1 (2007),  27–28
24. Lasing properties of selectively pumped Raman-active Nd³⁺-doped molybdate and tungstate crystals
    
    Kvantovaya Elektronika, 36:8 (2006),  720–726
25. Active laser media based on fianite crystals
    
    Kvantovaya Elektronika, 36:7 (2006),  601–608
26. Spectral and kinetic properties of Er³⁺, Yb³⁺ : Yb₃Al₅O₁₂ crystals at high temperatures
    
    Kvantovaya Elektronika, 36:7 (2006),  595–600
27. Continuously tunable cw lasing near 2.75 μm in diode-pumped Er³⁺ : SrF₂ and Er³⁺ : CaF₂ crystals
    
    Kvantovaya Elektronika, 36:7 (2006),  591–594
28. Ytterbium fibre laser with a heavily Yb³⁺-doped glass fibre core
    
    Kvantovaya Elektronika, 36:3 (2006),  189–191
29. Inorganic nanofluorides and related nanocomposites
    
    Usp. Khim., 75:12 (2006),  1193–1211
30. New materials for SRS lasers
    
    Usp. Khim., 75:10 (2006),  939–955
31. Amplification of picosecond pulses in F₂^-:LiF crystals synchronously pumped by picosecondand nanosecond laser pulses
    
    Kvantovaya Elektronika, 35:4 (2005),  344–346
32. High-average-power SRS conversion of radiation in a BaWO₄ crystal
    
    Kvantovaya Elektronika, 34:7 (2004),  649–651
33. Pulsed mid-IR Cr²⁺:ZnS and Cr²⁺:ZnSe lasers pumped by Raman-shifted Q-switched neodymium lasers
    
    Kvantovaya Elektronika, 34:1 (2004),  8–14
34. Phase locking of optically coupled lasers by gain gratings in an active medium
    
    Kvantovaya Elektronika, 33:8 (2003),  659–670
35. Stimulated Raman scattering of picosecond pulses in SrMoO₄ and Ca₃(VO₄)₂ crystals
    
    Kvantovaya Elektronika, 33:4 (2003),  331–334
36. Stimulated Raman scattering in alkaline-earth tungstate crystals
    
    Kvantovaya Elektronika, 30:1 (2000),  55–59
37. Diode-pumped ytterbium — erbium glass microlasers with optical Q-switching based on frustrated total internal reflection
    
    Kvantovaya Elektronika, 30:1 (2000),  10–12
38. Photorefractive properties of cobalt-doped strontium barium niobate crystals
    
    Kvantovaya Elektronika, 27:2 (1999),  170–174
39. Efficient bleachable filter based on Co²⁺:MgAl₂O₄ crystals for Q-switching of λ = 1.54 μm erbium glass lasers
    
    Kvantovaya Elektronika, 26:3 (1999),  189–190
40. Excited-state absorption spectroscopy of Nd³⁺:SrF₂ crystals in the 1280 — 1320 nm spectral wavelength range
    
    Kvantovaya Elektronika, 26:2 (1999),  117–121
41. Q-switching of a high-power solid-state laser by a fast scanning Fabry — Perot interferometer
    
    Kvantovaya Elektronika, 25:7 (1998),  633–637
42. Nature of the temperature dependence of the lasing efficiency of erbium laser glasses and the mechanism of the influence of sensitisers on this efficiency
    
    Kvantovaya Elektronika, 25:4 (1998),  324–326
43. Quasi-continuous operation of an LiF laser with $F_2^-$ colour centres
    
    Kvantovaya Elektronika, 24:9 (1997),  779–780
44. Efficient 3-μm Cr³⁺:Yb³⁺:Ho³⁺:YSGG crystal laser
    
    Kvantovaya Elektronika, 23:9 (1996),  791–792
45. Cr³⁺, Yb³⁺, Ho³⁺:YSGG crystal laser with a continuously tunable emission wavelength in the range 2.84 — 3.05 μm
    
    Kvantovaya Elektronika, 23:7 (1996),  579–580
46. Crystals of Cr³⁺:Yb³⁺:Ln³⁺:YSGG as active media of solid-state lasers
    
    Kvantovaya Elektronika, 23:5 (1996),  433–437
47. Erbium-sensitised glasses for praseodymium fibre laser amplifiers operating at λ = 1.3 μm
    
    Kvantovaya Elektronika, 23:2 (1996),  109–111
48. Glasses for praseodymium laser amplifiers sensitised with neodymium and ytterbium
    
    Kvantovaya Elektronika, 23:2 (1996),  103–108
49. Room-temperature stimulated emission from chromium (IV)-activated yttrium orthosilicate
    
    Kvantovaya Elektronika, 21:3 (1994),  216
50. Lasing properties of neodymium-doped calcium-niobium-gallium and calcium-lithium-niobium-gallium garnets at wavelengths of 1.06 and 1.33 μm
    
    Kvantovaya Elektronika, 20:6 (1993),  574–576
51. Efficient lasing near 1.4 μm in a (Cr, Ce, Nd):Gd₃Ga₅O₁₂ crystal
    
    Kvantovaya Elektronika, 20:6 (1993),  569–573
52. Cascade laser oscillation due to Ho³⁺ ions in a (Cr,Yb,Ho):YSGG yttrium-scandium-gallium garnet crystal
    
    Kvantovaya Elektronika, 20:4 (1993),  366–370
53. CONTROL OF DIRECTIONS OF FUSION DISTRIBUTION AT THE INITIAL-STAGE OF DIRECT UF FUSION IN COLD CONTAINER
    
    Zhurnal Tekhnicheskoi Fiziki, 62:8 (1992),  180–186
54. Crystals of Yb₃Sc₂Ga₃O₁₂:Cr³⁺:Ho³⁺ as a promising material for cascade lasing of Ho³⁺ ions
    
    Kvantovaya Elektronika, 19:9 (1992),  842–844
55. Highly efficient erbium glass lasers with Q switching based on frustrated total internal reflection
    
    Kvantovaya Elektronika, 19:6 (1992),  544–547
56. Lasing tests on new neodymium laser glasses
    
    Kvantovaya Elektronika, 18:11 (1991),  1303–1305
57. Investigation of the lasing capabilities of new erbium glasses
    
    Kvantovaya Elektronika, 18:9 (1991),  1063–1065
58. Erbium glass lasers with passive Q switching of the resonator by a component containing erbium
    
    Kvantovaya Elektronika, 18:7 (1991),  855–858
59. Efficient neodymium-doped gadolinium gallium garnet crystal laser
    
    Kvantovaya Elektronika, 18:7 (1991),  799–802
60. Stimulated emission from a neodymium-doped gadolinium gallium garnet crystal due to the ⁴F_3/2–⁴I_13/2 (λ = 1.33 μm) transition
    
    Kvantovaya Elektronika, 18:3 (1991),  298–300
61. Efficient laser with a rectangular active element
    
    Kvantovaya Elektronika, 18:3 (1991),  296–297
62. Erbium gadolinium gallium garnet crystal laser
    
    Kvantovaya Elektronika, 18:2 (1991),  179–181
63. Formation of the microzone structure in growing of high-melting oxide crystals
    
    Dokl. Akad. Nauk SSSR, 313:3 (1990),  590–593
64. Крупномасштабные электрически активные примесные скопления в кристаллах кремния, выращенных методом Чохральского
    
    Fizika i Tekhnika Poluprovodnikov, 24:2 (1990),  264–270
65. Calcium lithium niobium gallium garnet crystals activated with Cr³⁺, Tm³⁺, and Ho³⁺ ions as a new active medium for λ ≈ 2 μm lasers
    
    Kvantovaya Elektronika, 17:10 (1990),  1282–1283
66. Sensitization of the Er³⁺ luminescence in (YЕr)₃Аl₅O₁₂Сr³⁺ crystals and lasing at the 2.7 μm wavelength
    
    Kvantovaya Elektronika, 17:8 (1990),  1007–1009
67. New methods for passive Q switching of erbium glass lasers
    
    Kvantovaya Elektronika, 17:8 (1990),  959
68. Calcium lithium niobium gallium garnet crystals activated with Er³⁺ and Cr³⁺ as a new active medium for 3-μ lasers
    
    Kvantovaya Elektronika, 17:6 (1990),  721–722
69. High-power pulse-periodic neodymium glass laser with a plate-shaped active element
    
    Kvantovaya Elektronika, 17:4 (1990),  398–403
70. Effect of chemical composition on heat-and temperature conductivity and heat capacity of gallium garnets
    
    Dokl. Akad. Nauk SSSR, 309:1 (1989),  92–96
71. Electron structure properties of gadolinium-scandium-gallium garnet
    
    Dokl. Akad. Nauk SSSR, 308:5 (1989),  1115–1118
72. Irradiation stability of rare-earth scandium-aluminium garnets
    
    Dokl. Akad. Nauk SSSR, 305:3 (1989),  581–583
73. Raman study of phase transitions in $\mathrm{KTiOPO}_{4}$
    
    Fizika Tverdogo Tela, 31:10 (1989),  150–156
74. Fianite (ZrO₂–Y₂O₃:Er³⁺) laser emitting the 3-μm range
    
    Kvantovaya Elektronika, 16:12 (1989),  2421–2423
75. Concentrated neodymium phosphate glasses in compact pulse-periodic amplifiers
    
    Kvantovaya Elektronika, 16:12 (1989),  2400–2404
76. Laser utilizing erbium-activated gadolinium aluminum scandium garnet crystals coactivated with Cr³⁺ and emitting in the three-micron wavelength region
    
    Kvantovaya Elektronika, 16:9 (1989),  1785–1786
77. Spectral and lasing characteristics of CaMoO₄:Nd³⁺ single crystals
    
    Kvantovaya Elektronika, 16:6 (1989),  1152–1154
78. Spectroscopic and laser characteristics of the $\mathrm{Ca}$, $\mathrm{Mg}$, $\mathrm{Zr}$-substituted gadolinium-gallium garnet crystals doped with chromium and neodymium
    
    Dokl. Akad. Nauk SSSR, 301:1 (1988),  79–83
79. Raman scattering in crystallized and molten calcium-niobium-gallium garnet
    
    Dokl. Akad. Nauk SSSR, 298:3 (1988),  604–607
80. Raman study of the overheated melt crystallization in the $\mathrm{Sm}_2\mathrm{O}_3$ – $\mathrm{Ga}_2\mathrm{O}_3$ system
    
    Dokl. Akad. Nauk SSSR, 298:1 (1988),  87–91
81. Raman scattering in garnet solid solutions
    
    Fizika Tverdogo Tela, 30:2 (1988),  512–519
82. Potentialities of waveguide active elements made of different materials and used in solid-state lasers characterized by high average powers
    
    Kvantovaya Elektronika, 15:3 (1988),  486–489
83. Spectroscopic and lasing properties of calcium niobium gallium garnet activated with Cr³⁺ and Nd³⁺
    
    Kvantovaya Elektronika, 15:2 (1988),  312–317
84. Microwave spectroscopy of high temperature superconductors
    
    Fizika Tverdogo Tela, 29:12 (1987),  3710–3713
85. $\mathrm{Co}^{2+}\rightleftarrows \mathrm{Co}^{3+}$ transitions in $\mathrm{ZrO}_{2}$–$\mathrm{Y}_{2}\mathrm{O}_{3}$ crystals under vacuum and air annealing
    
    Fizika Tverdogo Tela, 29:11 (1987),  3511–3513
86. Raman scattering study of phase transitions in lithium niobate and tantallate
    
    Fizika Tverdogo Tela, 29:5 (1987),  1348–1355
87. Direct measurement of the rate of nonradiative relaxation and luminescence spectra from the ⁴G_7/2, ⁴G_5/2+²G_7/2, and ⁴F_9/2 levels of Nd³⁺ ions in LaF₃, SrF₂, and YAlO₃ laser crystals
    
    Kvantovaya Elektronika, 14:10 (1987),  2021–2023
88. Experimental observation of the self-switching of radiation in tunnel-coupled optical waveguides
    
    Kvantovaya Elektronika, 14:6 (1987),  1144–1147
89. Investigation of UV absorption in GSGG: $\mathrm{Cr}^{3+}$ crystals
    
    Dokl. Akad. Nauk SSSR, 289:2 (1986),  344–347
90. Acoustooptical properties of rare-earth gallium garnets
    
    Pisma v Zhurnal Tekhnicheskoi Fiziki, 12:23 (1986),  1409–1411
91. Lasing of holmium ions as a result of the ⁵I₇→⁵I₈ transition at room temperature in an yttrium scandium gallium garnet crystal activated with chromium, thulium, and holmium ions
    
    Kvantovaya Elektronika, 13:10 (1986),  2127–2129
92. Spectral, luminescence, and lasing properties of a yttrium scandium gallium garnet crystal activated with chromium and erbium
    
    Kvantovaya Elektronika, 13:5 (1986),  973–979
93. Picosecond laser made of a gadolinium scandium gallium garnet crystal doped with Cr and Nd
    
    Kvantovaya Elektronika, 13:3 (1986),  655–656
94. Two-pass compact laser amplifier made of a gadolinium scandium gallium garnet crystal doped with Cr³⁺ and Nd³⁺
    
    Kvantovaya Elektronika, 13:2 (1986),  412–414
95. Raman scattering study of crystalline and melt germanates
    
    Dokl. Akad. Nauk SSSR, 283:6 (1985),  1333–1336
96. Influence of chromium ions on the color center formation in crystals with garnet structure
    
    Dokl. Akad. Nauk SSSR, 282:5 (1985),  1104–1106
97. Amplification of single pulses in a gadolinium scandium gallium garnet crystal activated with Cr³⁺ and Nd³⁺
    
    Kvantovaya Elektronika, 12:11 (1985),  2198–2199
98. Comparative tests of lasing characteristics on certain brands of neodymium laser glasses
    
    Kvantovaya Elektronika, 12:4 (1985),  694–697
99. Quasi-crystals
    
    Dokl. Akad. Nauk SSSR, 276:4 (1984),  870–873
100. Raman scattering in metals of alkali metal phosphates
     
     Dokl. Akad. Nauk SSSR, 274:3 (1984),  559–561
101. Elastic, photoelastic and thermo-physical characteristics of $\mathrm{Gd}$–$\mathrm{Sc}$–$\mathrm{Ga}$ garnet
     
     Fizika Tverdogo Tela, 26:5 (1984),  1517–1519
102. Composition and thermal treating effect on charge states of intrinsic and impurity defects in $\mathrm{ZrO}_{2}$–$\mathrm{Y}_{2}\mathrm{O}_{3}$ solid solutions
     
     Fizika Tverdogo Tela, 26:5 (1984),  1313–1318
103. CONTROL REPTATION OF DOMAIN-WALLS IN FERRITE GARNET-FILMS
     
     Zhurnal Tekhnicheskoi Fiziki, 54:12 (1984),  2423–2425
104. FERRITE-GARNET FILMS WITH THE SUB-MICRON CMD ON SAMARIUM-GALLIUM GARNET SUPPORT
     
     Pisma v Zhurnal Tekhnicheskoi Fiziki, 10:24 (1984),  1497–1500
105. (BI,TM)3(FE,GA)5O12 FILMS WITH HIGH-SPEED MOVEMENT OF DOMAIN-WALLS
     
     Pisma v Zhurnal Tekhnicheskoi Fiziki, 10:13 (1984),  788–792
106. Growth of single-crystal plates of complicated oxide compounds by the Stepanov method
     
     Dokl. Akad. Nauk SSSR, 268:1 (1983),  69–72
107. Elastic and photoelastic constants in $\{\mathrm{La}_{2}\mathrm{Nd}_{0.3}\mathrm{Lu}_{0.7}\}\mathrm{Lu}_{2}\mathrm{Ga}_{3}\mathrm{O}_{12}$ garnet
     
     Fizika Tverdogo Tela, 25:4 (1983),  986–991
108. Output characteristics of a gadolinium scandium gallium garnet laser operating in the pulse-periodic regime
     
     Kvantovaya Elektronika, 10:10 (1983),  1961–1963
109. Tunable laser utilizing an electronic–vibrational transition in chromium in a gadolinium scandium gallium garnet crystal
     
     Kvantovaya Elektronika, 10:9 (1983),  1916–1919
110. Electronic model of the phyanites
     
     Dokl. Akad. Nauk SSSR, 267:2 (1982),  351–354
111. Active media for high-efficiency neodymium lasers with nonselective pumping
     
     Kvantovaya Elektronika, 9:12 (1982),  2531–2533
112. Spectral composition of the radiation emitted from a concentrated LiNdLa phosphate glass laser with a $Q$ switch made of an LiF crystal with $F_2^-$ centers
     
     Kvantovaya Elektronika, 9:9 (1982),  1842–1843
113. Efficient tunable LiF:$F_2^-$ crystal lasers
     
     Kvantovaya Elektronika, 9:8 (1982),  1741–1743
114. Passively Q-switched laser utilizing concentrated Li–Nd–La phosphate glass
     
     Kvantovaya Elektronika, 9:8 (1982),  1536–1542
115. Optical and harmonic generation properties of barium sodium niobate crystals of different compositions
     
     Kvantovaya Elektronika, 9:7 (1982),  1491–1493
116. Kinetics of nonradiative relaxation from the upper active level of neodymium in a Y₃Al₅O₁₂ crystal
     
     Kvantovaya Elektronika, 9:6 (1982),  1180–1185
117. Efficient passive switches for neodymium lasers made of LiF:F₂^– crystals
     
     Kvantovaya Elektronika, 9:4 (1982),  837–839
118. Luminescence sensitization and its application to enhance the efficiency of solid-state laser active media
     
     Kvantovaya Elektronika, 9:4 (1982),  681–688
119. Efficiency of an Li–Nd–La phosphate glass laser at low pump energies. Free lasing
     
     Kvantovaya Elektronika, 8:7 (1981),  1598–1601
120. Use of high-concentration Li–Nd–La phosphate glass in Q-switched lasers
     
     Kvantovaya Elektronika, 8:7 (1981),  1595–1598
121. Investigation of the mechanisms of interaction between chromium and neodymium ions in phosphate glasses
     
     Kvantovaya Elektronika, 8:7 (1981),  1442–1450
122. Concentrated neodymium laser glasses (review)
     
     Kvantovaya Elektronika, 8:3 (1981),  469–483
123. Tunable laser utilizing LiF : $F_2^+$ color centers in LiF and a holographic selector
     
     Kvantovaya Elektronika, 8:2 (1981),  419–421
124. Dispersion of probabilities of interionic nonradiative transitions in the solids
     
     Dokl. Akad. Nauk SSSR, 254:3 (1980),  593–596
125. Synthesis and investigation of spectral, luminescence, and lasing properties of alumoborate crystals activated with chromium and neodymium ions
     
     Kvantovaya Elektronika, 7:10 (1980),  2105–2111
126. Electrooptic and nonlinear optical properties of oxygenoctahedral ferroelectrics (review)
     
     Kvantovaya Elektronika, 7:8 (1980),  1621–1653
127. High-efficiency pulse-periodic laser utilizing highconcentration neodymium phosphate glass
     
     Kvantovaya Elektronika, 7:5 (1980),  1120–1122
128. Measurements of the absolute quantum efficiency of neodymium luminescence in high-concentration glasses coactivated with chromium
     
     Kvantovaya Elektronika, 6:10 (1979),  2253–2256
129. Discrimination in inhomogeneously broadened emission spectra of neodymium by resonance laser excitation
     
     Kvantovaya Elektronika, 6:10 (1979),  2215–2219
130. Photoelectric and photorefractive properties of cerium-doped barium strontium niobate crystals
     
     Kvantovaya Elektronika, 6:9 (1979),  1993–1999
131. Investigation of the laser characteristics of Li–Nd–La phosphate glass active elements
     
     Kvantovaya Elektronika, 6:7 (1979),  1586–1588
132. Nonradiative energy transfer from Cr³⁺ to Nd³⁺ ions in glasses with high neodymium concentrations
     
     Kvantovaya Elektronika, 6:7 (1979),  1583–1585
133. High-concentrated neodymium laser glasses
     
     Dokl. Akad. Nauk SSSR, 239:3 (1978),  573–575
134. Nonradiative losses due to the ⁴I_11/2–⁴I_13/2 transition of the Er³⁺ ion in Y₃Al₅O₁₂, Gd₃Sc₂Al₃O₁₂, Y₃Ga₅O₁₂, Gd₃Ga₅O₁₂, and CaF₂ crystals
     
     Kvantovaya Elektronika, 5:5 (1978),  1028–1033
135. Concentration dependences of the quantum efficiency of the luminescence emitted by neodymium-activated laser matrices and microscopic determination of these dependences
     
     Kvantovaya Elektronika, 5:4 (1978),  847–856
136. Characteristics of stimulated emission from Li–Nd–La phosphate glass
     
     Kvantovaya Elektronika, 5:3 (1978),  686–689
137. The Formation of High-temperature Materials by Direct High-frequency Fusion in a Cold Container
     
     Usp. Khim., 47:3 (1978),  385–427
138. Fast-response pyroelectric crystal detector based on Ba_0.25Sr_0.75Nb₂O₆
     
     Kvantovaya Elektronika, 4:9 (1977),  1903–1910
139. Correlation of the efficiency of cooperative sensitization of luminescence with the intensity of Rayleigh scattering
     
     Kvantovaya Elektronika, 4:8 (1977),  1661–1665
140. Investigation of nonradiative losses and pulse-periodic stimulated emission from Li–Nd–La phosphate glass
     
     Kvantovaya Elektronika, 4:3 (1977),  688–691
141. Investigation of anomalously weak quenching of Nd³⁺ ion luminescence in La_1–xNd_xP₅O₁₄
     
     Kvantovaya Elektronika, 4:2 (1977),  302–309
142. Cross section of the ⁴I_11/2–⁴I_13/2 laser transition in Er³⁺ ions in yttrium–erbium–aluminum garnet crystals
     
     Kvantovaya Elektronika, 4:1 (1977),  198–201
143. Spectral and generative properties of $(\mathrm{Li}-\mathrm{Nd})$-phosphatic glass
     
     Dokl. Akad. Nauk SSSR, 227:1 (1976),  75–77
144. Physicochemical, spectral, luminescence, and stimulated emission properties of phosphate glasses with high neodymium concentrations
     
     Kvantovaya Elektronika, 3:10 (1976),  2243–2247
145. Optically induced changes in the refractive index of ferroelectric crystals and their use in reusable holographic memories (review)
     
     Kvantovaya Elektronika, 3:10 (1976),  2101–2126
146. Radiative and nonradiative transitions exhibited by Er³⁺ ions in mixed yttrium-erbium aluminum garnets
     
     Kvantovaya Elektronika, 3:7 (1976),  1471–1477
147. Single-mode Q-switched CaF₂:Er³⁺ laser
     
     Kvantovaya Elektronika, 3:3 (1976),  628–629
148. Spectroscopic properties of neodymium-activated scandium garnets
     
     Kvantovaya Elektronika, 3:3 (1976),  618–621
149. Color centers in yttrium-aluminum and yttrium-erbium-aluminum garnet crystals
     
     Kvantovaya Elektronika, 3:3 (1976),  589–594
150. Dielectric and electro-optic properties of potassium-sodium-barium niobate crystals: second-harmonic generation
     
     Kvantovaya Elektronika, 2:3 (1975),  525–528
151. Barium-sodium-potassium niobate – a promising material for nonlinear optics
     
     Dokl. Akad. Nauk SSSR, 218:6 (1974),  1317–1318
152. Erbium-doped CaF₂ crystal laser operating at room temperatature
     
     Kvantovaya Elektronika, 1:12 (1974),  2633–2635
153. Stimulated emission from Er³⁺ ions in yttrium aluminum garnet crystals at λ = 2.94 μ
     
     Kvantovaya Elektronika, 1:8 (1974),  1867–1869
154. Spectroscopic properties and the generation of $\mathrm{Nd}^{3+}$ in the $\mathrm{ZrO}_2$ and $\mathrm{HfO}_2$ crystals
     
     Dokl. Akad. Nauk SSSR, 199:6 (1971),  1282–1283
155. X-ray luminescence of rare-earth elements ions in crystals
     
     Dokl. Akad. Nauk SSSR, 188:6 (1969),  1258–1260
156. Two kinds of manganese luminescence centres in the cadmium – lithium orthosilicate phase
     
     Dokl. Akad. Nauk SSSR, 121:3 (1958),  507–510


157. In memory of Vyacheslav Petrovich Makarov (14 February 1938 – 6 August 2019)
     
     Kvantovaya Elektronika, 49:9 (2019),  894
158. In memory of Viktor Georgievich Veselago
     
     UFN, 189:3 (2019),  335–336
159. In memory of Mitrofan Fedorovich Stel'makh
     
     Kvantovaya Elektronika, 48:12 (2018),  1179
160. In memory of Mikhail Yakovlevich Schelev
     
     Kvantovaya Elektronika, 46:11 (2016),  1066
161. On the 100th Birthday of Aleksandr Mikhailovich Prokhorov
     
     Kvantovaya Elektronika, 46:7 (2016),  672–674
162. In memory of Fedor Vasil'evich Bunkin
     
     UFN, 186:7 (2016),  799–800
163. Evgeny Mikhailovich Dianov (on his 80th birthday)
     
     UFN, 186:1 (2016),  111–112
164. To the memory of Aleksandr Alekseevich Manenkov
     
     Kvantovaya Elektronika, 44:6 (2014),  612
165. In memory of Tasoltan Tazretovich Basiev
     
     Kvantovaya Elektronika, 42:4 (2012),  376
166. Aleksandr Aleksandrovich Kaplyanskii (on his 80th birthday)
     
     UFN, 181:1 (2011),  115–116
167. To the 80th birthday of A. A. Manenkov
     
     Kvantovaya Elektronika, 40:2 (2010),  188
168. Nikolai Vasil'evich Karlov (on his 80th birthday)
     
     UFN, 179:10 (2009),  1141–1142
169. Fedor Vasil'evich Bunkin (on his 80th birthday)
     
     UFN, 179:1 (2009),  109–110
170. Sergei Ivanovich Yakovlenko
     
     Kvantovaya Elektronika, 37:2 (2007),  204
171. A M Prokhorov: founder of the General Physics Institute
     
     UFN, 177:6 (2007),  684–689
172. Evgenii Mikhailovich Dianov
     
     Kvantovaya Elektronika, 36:1 (2006),  94
173. In memory of Aleksandr Mikhailovich Prokhorov
     
     UFN, 172:7 (2002),  841–842
174. Igor' Il'ich Sobel'man (on his seventieth birthday)
     
     UFN, 167:3 (1997),  343–344
175. Evgeniĭ Mikhaĭlovich Dianov
     
     Kvantovaya Elektronika, 23:1 (1996),  94
176. Aleksei Mikhailovich Bonch-Bruevich (on his eightieth birthday)
     
     UFN, 166:6 (1996),  693–694
177. Aleksandr Mikhaĭlovich Prokhorov (on his seventy-fifth birthday)
     
     Kvantovaya Elektronika, 18:7 (1991),  895–896
178. Aleksandr Ivanovich Barchukov (March 13, 1920–November 10, 1980): on the seventieth anniversary of his birth
     
     Kvantovaya Elektronika, 17:4 (1990),  528