Références bibliographiques

[1] Catalogue SDL 95 p 16.

[2] " Excitation of the Nd3+ fluorescence in CaWO4 by recombination radiation in GaAs ", R. Newman, Journ. of Appl. Phys., vol 34, pp 437-438, 1963.

[3] " Injection luminescent pumping of CaF2:U3+ with GaAs diode lasers ", R.J. Keyes, Appl. Phys. Lett., vol 4, pp 50-52, 1964.

[4] " High-efficiency TEM00 Nd:YVO4 laser longitudinally pumped by a high-power array ", G. Feugnet, C. Bussac, C. Larat, M. Schwarz, J.P. Pocholle, Optics Letters, vol 20, n°2, pp 157-159, 1995.

[5] " diode laser pumped solid-state lasers ", IEEE J. Quantum. Electron., T.Y. Fan and R.L. Byer, vol. 24, pp 895-912, 1988.

[6] " Safety with lasers and other optical sources ", D. Sliney, M. Wolbarsht, Plenum press , New York, 1980, p. 145.

[7] " Safety with lasers and other optical sources ", D. Sliney, M. Wolbarsht, Plenum press , New York, 1980, p. 89.

[8] " Advances in Quantum Electronics ", Z.J. Kiss, R.C. Duncan, ed. By J. R. Singer (Columbia Univ. Press, New York, 1961), p 164.

[9] " Yb3+-Er3+ glass laser ", E. Snitzer, R. Woodcock, Appl. Phys. Lett., vol 6, n° 3, pp 45-46, 1965.

[10] " High-power and high-efficiency diode-pumped Er : Yb : glass laser ", P. Laporta, S. Taccheo and O. Svelto, Elec. Lett., vol 28, n° 5, pp 490-492, 1992.

[11] " Diode array-pumped Er, Yb phosphate glass laser ", J.A. Hutchinson and T.H. Allik, Appl. Phys. Lett., vol 60, n° 12, pp 1424-1426, 1992.

[12] " 1.54 µm high-power diode-pumped erbium laser ", D.W. Anthon, T.J. Pier and P.A. Leilabady, in technical digest, Optical Fiber Communications (Optical Society of America, San Diego, Ca.,1991), paper FB6.

[13] " Passive Q switching of the Er3+:Y3Al5O12 laser at 1.64 µm ", M.B. Camargo, R.D. Stultz and M. Birnbaum, Appl. Phys. Lett., vol 66, n° 22, pp 2940-2941, 1995.

[14] " Room-temperature diode-pumped continous-wave SrY4(SiO4)3:Yb3+,Er3+ crystal laser at 1554 nm ", J.C. Souriau, R. Romero, C. Borel, C. Wyon, C. Li and R. Moncorgé, Appl. Phys. Lett., vol 64, n° 10, pp 1189-1191, 1994.

[15] " Er :Y2SiO5 Eye-Safe Laser at 300K ", K. Spariosu, R.D. Stultz, M.B. Camargo, M. Birnbaum, S. Montgomery and B. Chai, OSA proceedings on Advanced Solid-State Lasers, 1994, vol 20, pp 156-159.

[16] Valeurs données par Kigre Inc.

[17] Valeurs données par Kigre Inc.

[18] " Optical interactions in solids ", D. Di Bartolo, by john Wiley and Sons, Inc., 1968, p. 410.

[19] " Variation of Er3+ cross section for stimulated emission with glass composition ", J.N. Sandoe, P.H. Sarkies, S. Parke, J. Phys, D5, pp 1788-1799, 1972.

[20] " General procedure for the analysis of Er3+ cross sections ", W.J. Miniscalco, R.S. Quimby, Opt. Lett., vol 16, n° 4, pp 258-260, 1991.

[21] " Beam and fiber optics ", Arnaud, J.A., pp. 55-60 (Acadmic press)

[22] Valeurs données par Kigre Inc.

[23] " Laser and thermal performance of a new doped phosphate lasre glasss ", S. Jiang, J. Myers, D. Rhonehouse, M. Myers, R. Belford and S. Hamlin, Kigre Inc. internal publication.

[24] " Mechanically Q-swiyched codoped Er-Yb glass lase under Ti:sapphire and laser diode pumping ", E. Tanguy, J.P. Pocholle, G. feugnet, C. Larat, M. Schwarz, A. Brun and P. Georges, Elec. Lett., vol 31, n° 6, pp 458-459, 1995.

[25] " Technique for monolithic fabrication of microlens array ", Z.D. Popovic, R.A. Sprague and G.A. Neville Connell, Appl. Opts., vol 27, n° 7, pp 1281-1284, 1988.

[26] " Design of a device for pumping a double-clad fiber with a laser-diode bar ", Luis A. Zenteno, App Opt., vol 33, n° 31, pp 7282-7287, 1994.

[27] " High-power Nd:YLF laser end pumped by a diode-laser bar ", Th. Garf, J.E. Balmer, Opt. Lett., vol 18, n° 16, pp 1317-1319, 1993.

[28] " High efficiency TEM00 Nd:YVO4 laser longitudinally pumped by a high power laser diode array ", G. Feugnet, C. Bussac, M. Schwarz, C. Larat, and JP. Pocholle, SPIE proceeding " Nonimaging Optics III : Maximum Efficiency Light Transfer ", 1995.

[29] Voir Kigre

[30] " 1.55µm wavelength microchip lasers. ", P. Tony, E. Molva, in Advanded Solid-State Lasers 1996, Technical Digest , pp 256-258.

[31] " Passively-Q-switched monolithic microchip laser ", L. Fulbert, J. Marty, B. Ferrand and E. Molva, in Conference on Lasers and Electro-Optics 1995, Tecnical Digest, pp 176.

[32] " Passive Q-switching of Infrared Lasers with Multiple Quantum Wells ", J.A.C. Terry, M.J.P. Payne, OSA proceedings on Advanced Solid-State Lasers, 1995, vol 24, pp 465-467.

[33] " Spectroscopic Analysis and Passive Q-Switch Performance Of Er3+ in Calcium Fluorophosphate ", T.H. Allik, J.B. Gruber, M.D. Seltzer, M.E. Hills, K. Sparious, R.D. Stultz, M. Birnbaum, C.A. Morrison, B.H.T. Chai, J.A. Hutchinson and L.D. Merkle, OSA proceedings on Advanced Solid-State Lasers, 1993, vol 15, pp 246-249.

[34] " Er3+ :Sr5(VO4)3F : a potential passive Q-switch for Er-glass lasers ", R.E. Peale, H. Weidner and W.A. McClintie, Jr, OSA proceedings on Advanced Solid-State Lasers, 1995, vol 24, pp 519-522.

[35] " Er :Ca5(PO4)3F saturable-absorber Q switch for the Er:glass laser at 1.53 µm ", K. Spariosu, R.D. Stultz, M. Birnbaum, T.H. Allik and J.A. Hutchinson, Appl. Phys. Lett., vol 22, n° 62, pp 2763-2765, 1993.

[36] " U4+ :SrF2 efficient saturable absorber Q switch for the 1.54 µm erbium:glass laser ", R.D. Stultz, M.B. Camargo, S.T. Montgomery, M. Birnbaum and K. Spariosu, Appl. Phys. Lett., vol 64, n° 8, pp 948-950, 1994.

[37] " Passive Q-switch at 1.53 µm using divalent uranium ions in calcium fluoride ", R.D. Stultz, M.B. Camargo and M. Birnbaum, J. Appl. Phys., vol 78, n° 5, pp 2959-2961, 1995.

[38] " Divalent Uranium and Cobalt Saturable Absorber Q-Switches at 1.5 µm ", R.D. Stultz, M.B. Camargo, M. Birnbaum and M. Kokta, OSA proceedings on Advanced Solid-State Lasers, 1995, vol 24, pp 460-464.

[39] " Étude et réalisation d'un imageur actif laser à compression d'impulsions ", B. Rémy, Thèse de doctorat en sciences, Université d'Orsay (1986).

[40] " Détection hétérodyne grand champ ", S. Breugnot, Thèse de doctorat en sciences, Université d'Orsay (1995).

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