Techniques for Handling Elliptically Polarized Waves with ... - elliptically polarized

 2024-10-12 07:29:06

W. Ooechner and D. K. Rice, “Birefringence of YAG:Nd laser rods as function of growth direction,” J. Opt. Soc. Am.,61, No. 6, 758–766 (1971).

Bestlaser neodymium

V. Vasil'ev, S. V. Zinov'ev, D. V. Smirnov, et al., “Laser-plasma x-ray source,” Abstracts, III All-Union Conf. on Laser Optics, Leningrad (1981), pp. 179–180.

V. N. Bykov, N. N. Groshkova, V. R. Kushnir, and N. V. Shkunov, “Distortions of thermally induced lens of active elements in illuminators,” Elektron. Tekh., Ser. 11, No. 1, 64–68 (1978).

Yu. D. Golyaev, K. N. Evyukhov, L. N. Kaptsov, and S. V. Lantratov, Combined system of frequency and radiation-power stabilization for a cw garnet laser,” Abstracts, 1st All-Union Conf. on Problems of Controlling Laser-Radiation Parameters (Part 2), Tashkent State Univ. (1978), pp. 173–175.

Yu. D. Golyaev, K. N. Evtyukhov, and L. N. Kaptsov, “Induced anisotropy in active elements of neodymium-doped garnet,” Vestn. Mosk. Univ. Ser. Fiz. Astron.,21, 29–35 (1980).

V. V. Azarova, A. A. Kalmychek, O. A. Orlov, and V. I. Ustyugov, “Active stabilization of cw YAG:Nd laser,” Pis'ma Zh. Tekh. Fiz.,5, No. 11, 659–663 (1979).

Nd:YAGlasereye

A. S. Batarov, M. M. Butusov, G. P. Grechka, and D. P. Luk'yanov (eds.), Laser-Based Measuring Systems [in Russian], Radio i Svyaz', Moscow (1981).

N. G. Vakhitov, “Electromagnetic oscillations in an open cavity consisting of flat mirrors and a dielectric prism placed between them,” Zh. Eksp. Teor. Fiz.,37, No. 2 242–253 (1967).

S. A. Akhmanov, Yu. D. Golyaev, and S. V. Lantratov, “Use of lasers in modulation spectroscopy,” Kvantovaya Elektron. (Moscow),5, No. 6, 1329–1340 (1978).

V. I. Vasil'ev and I. S. Marshak, Collected Materials on Vacuum Techniques [in Russian], No. 14, Gosénergoizdat, Moscow-Leningrad (1958), pp. 19–52.

Nd:YAGlaserfrequency

Nd:YAGlaserfor pigmentation

Yu. D. Golyaev, K. N. Evtyukhov, and L. N. Kaptsov, “Stabilization of cw neodymium-garnet-laser radiation power,” Radiotekh. Elektron.,15, No. 1, 2467–2469 (1980).

Yu. D. Gulyaev, A. V. Trushetskii, L. N. Kaptsov, and V. A. Sokolov, “Mode pulling in a neodymium-garnet laser,” Pis'ma Zh. Tekh. Fiz.,3, No. 22, 1226–1229 (1977).

A. S. Doinikov, Reviews of Electronic Technology. Electrovacuum and Gas-Discharge Devices [in Russian], No. 11 (1973), p. 154.

M. P. Vanyukov, A. N. Vorob'ev, and E. V. Daniel', “Influence of the products of electrode erosion of pulsed lamps on their strength,” Zh. Prikl. Spectrosk.,11, No. 4, 726–729 (1969).

P. F. Liao and H. F. Weber, “Fluorescence quenching of4F3/2 state in Nd-doped yttrium aluminum garnet (YAG) by multiphonon relaxation,” J. Appl. Phys.,45, No. 7, 2931–2934 (1974).

T. Ya. Kolodnyi, E. A. Levchuk, B. B. Meshkov, and P. P. Yakovlev, “Synthesis of antireflection coatings by the direct search method,” Kvantovaya Elektron. (Moscow),5, No. 1, 83–89 (1978).

J. E. Geusic, H. M. Marcos, and L. G. Van Uitert, “Laser applications in Nd-doped yttrium gallium garnets,” Appl. Phys. Lett.,4, 182–184 (1954).

N. I. Polushkin, P. A. Khandokhin, and Ya. I. Khanin, “Influence of gain-line structure on laser dynamics of a solid-state ring laser,” Kvantovaya Elektron. (Moscow),10, No. 7, 1461–1464 (1983).

Nd:YAGlaserbefore and after

J. R. Oliver and F. S. Barnes, “Rare gas pumping efficiencies for neodymium laser,” IEEE J. Quantum. Electron., May 1969, pp. 225–231.

Zverev, G.M., Golyaev, Y.D., Shalaev, E.A. et al. Neodymium activated yttrium-aluminum-garnet (YAG:Nd) lasers. J Russ Laser Res 8, 189–282 (1987). https://doi.org/10.1007/BF01150271

L. V. Tarasov, Physics of Processes in Generators of Coherent Optical Radiation [in Russian], Radio i Svyaz', Moscow (1981).

A. J. Glass and A. H. Quenther, “Laser induced damage in optical materials,” 7th ASTM Symposium, Appl. Opt.,15, No. 6, 1510–1529 (1976).

M. Sakita and S. Kimura, “Induced emission cross section of Nd:Y3Al5O12 grown by floating zone method,” J. Appl. Phys.,54(6), 3415–3421 (1983).

Kh. S. Bagdasarov, I. I. Karpov, and B. N. Grechushnikov, “Growth of YAG crystals,” in: Reviews of Electronic Technology [in Russian], TNII Elektronika, Moscow (1976).

V. G. Dmitriev, N. V. Umanskii, and N. V. Shkunov, “Technical stresses in active elements under cw pumping conditions,” Kvantovaya Elektron. (Moscow), No. 2, 80–86 (1971).

N. I. Polushkin, P. A. Khandokhin, and Ya. I. Khainin, “Influence of gain-line structure on the lasing dynamics of a solid-state ring laser,” Kvantovaya Elektron. (Moscow),10, No. 7, 1461–1463 (1983).

Since you have posted a question with multiple sub-parts, we will solve first three sub-parts for you. To get remaining sub-part solved please repost the complete question and mention...

S. Yoshikawa, K. Iwamoto, and K. Washio, “Efficient arc lamps for optical pumping of neodymium laser,” Appl. Opt.,10, No. 7, 1620–1623 (1971).

G. M. Zverev, G. Ya. Kolodnyi, and Yu. P. Poryadin, “Resistance of dielectric-coating interference mirrors to laser-induced damage,” Kvantovaya Elektron. (Moscow),5, No. 1, 44–50 (1978).

L. E. Belousova, V. P. Kirsanov, and I. S. Marshak, “Concerning the strongest thermal pulsed tubular lamps,” Inzh.-Fiz. Zh.,9, No. 1, 105–111 (1965).

T. Kushida, S. Kinoshita, T. Ohtsuki, and T. Yamada, “Multiphonon relaxation rate from pumped level to upper laser,” Solid-State Commun.,44, No. 9, 1303–1365 (1982).

S. Marshak, S. V. Doinikov, V. I. Zhil'tsov, et al., Pulsed Light Sources [in Russian], I. S. Marshak (ed.), Énergiya, Moscow (1978).

nd:yaglaserhair removal

G. M. Zverev, Yu. G. D'yakova, and A. A. Shokin, Solid-state YAG:Nd lasers for the national economy,” Electron. Prom., No. 5, 15–16 (1981).

S. G. Zeiger, Yu. L. Klimonotovich, P. S. Landa, et al., Wave and Fluctuation Processes in Lasers [in Russian], Yu. L. Klimontovich (ed.), Nauka, Moscow (1974).

B. R. Belostotskii, Yu. V. Lyubavskii, and V. M. Ovchinnikov, Fundamentals of Laser Engineering [in Russian], A. M. Prokhorov (ed.), Sov. Radio, Moscow (1972).

N. M. Galaktionova, A. A. Mak, and A. P. Khyuppenen, “Parasitic amplitude modulation of the emission of a stabilized YAG:Nd laser,” Zh. Tekh. Fiz.,154, No. 4, 770–777 (1974).

T. N. Vinokurov, N. M. Galaktionova, V. F. Egorova, et al., “Spike structure of solid-state laser radiation,” Zh. Eksp. Teor. Fiz.,60, 489–499 (1971).

V. V. Azarova, N. M. Galaktionov, A. A. Mak, et al., “Solid-state laser-radiation noise,” Kvantovaya Elektron. (Moscow),9, No. 11, 2339–2348 (1979).

Nd yaglaser neodymium

B. N. Grechushnikov, I. I. Karpov, Kh. S. Bagdasarov, and Kh. S. Zverev, “Optical Properties of YAG crystals and their use in lasers,” in: Reviews of Electronic Technology [in Russian], TNII Elektronika, Moscow (1976).

Yu. D. Golyaev and S. V. Lantratov, “Intensity fluctuations of radiation from multimode solid-state lasers with modulated resonator losses,” Kvantovaya Elektron. (Moscow),9, No. 11, 2361–2372 (1979).

nd:yaglaserfor skin

Yu. D. Golyaev, A. V. Grushetskii, K. N. Evtyukhov, and L. N. Kaptsov, “Effect of thermal lens in a YAG crystal on the stability of a cw laser emission,” Vestn. Mosk. Univ. Ser. Fiz. Astron.,10, No. 2, 84–89 (1978).

Yu. D. Golyaev and S. V. Lantratov, “Spike lasing regimes in neodymium-garnet lasers,” Kvantovaya Elektron. (Moscow),1, No. 10, 2197–2210 (1974).

P. Labudde, W. Seka, and H. P. Weber, “Gain increase in laser amplifiers by suppression of parasitic oscillations,” Appl. Phys. Lett.,29, No. 11, 732 (1976).

A. A. Mak and V. I. Ustyugov, “Spontaneous single-frequency lasing of solid-state ring laser,” Pis'ma Zh. Eksp. Teor. Fiz.,18, No. 4, 253–255 (1973).

R. H. Dishington, W. R. Hook, and R. P. Hilberg, “Flashlamp discharge and laser efficiency,” Appl. Opt.,13, No. 10, 2300 (1974).

W. Koechner, “Absorbed pump-power thermal profile and stresses in a cw pumped Nd:YAG crystal,” Appl. Opt.,9, No. 6, 1429–1434 (1970).

V. A. Bernshtein and S. I. Novikov, “Submicrocrystalline inclusions and strength of amorphous brittle bodies,” Fiz. Tverd. Tela,17, No. 1, 241–246 (1975).

E. S. Kovalenko and A. V. Pugovkin, “On the theory of nonstationary oscillations in a laser,” Izv. Vyssh. Uchebn. Zaved., Ser. Radiofiz.,11, No. 2, 233–238 (1968).

V. T. Zagorodnyuk and D. Ya. Parshin, Effective Coupling of Lasers with Commerical Objects [in Russian], Svyaz', Moscow (1979).