Comptes Rendus
Continuous-wave mid-infrared laser sources based on difference frequency generation
[Sources lasers continues dans l'infrarouge par génération de différence de fréquences]
Comptes Rendus. Physique, Volume 8 (2007) no. 10, pp. 1129-1150.

Dans cet article nous présentons des développements récents de sources lasers, fonctionnant en régime continu et largement accordables en fréquence, basées sur la génération de différence de fréquences (DFG) lasers dans un milieu optique non linéaire. L'état de l'art de la technologie DFG sera passé en revue. Des applications de la source laser à DFG en spectroscopie moléculaire à haute résolution et à la détection de traces de gaz seront présentées. Des tendances récentes du développement de la technologie DFG seront discutées.

We report on recent developments of widely tunable, continuous-wave (CW) laser sources based on difference-frequency generation (DFG) in nonlinear optical materials. The state-of-the-art of CW DFG technology will be reviewed. Applications of the DFG-based laser source to high-resolution molecular spectroscopy and trace gas detection will be presented. New development trends of DFG will be discussed.

Publié le :
DOI : 10.1016/j.crhy.2007.09.011
Keywords: Mid-infrared tunable laser source, Difference-frequency generation, Phase-matching, Laser absorption spectroscopy, Trace gas detection
Mot clés : Source laser accordable dans l'infrarouge moyen, Génération de différence de fréquences, Accord de phase, Spectroscopie d'absorption laser, Détection de traces de gaz

Weidong Chen 1 ; Julien Cousin 1 ; Emmanuelle Poullet 1 ; Jean Burie 1 ; Daniel Boucher 1 ; Xiaoming Gao 2 ; Markus W. Sigrist 3 ; Frank K. Tittel 4

1 Laboratoire de physicochimie de l'atmosphère, UMR CNRS 8101, Université du Littoral Côte d'Opale 189A, Avenue Maurice Schumann, 59140 Dunkerque, France
2 Anhui Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Hefei 230031, PR China
3 ETH Zürich, Institute for Quantum Electronics, Laser Spectroscopy and Sensing Laboratory, Schafmattstrasse 16, CH-8093 Zürich, Switzerland
4 Rice Quantum Institute, MS 366, Rice University, 6100 Main St., Houston, TX 77005, USA
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     title = {Continuous-wave mid-infrared laser sources based on difference frequency generation},
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Weidong Chen; Julien Cousin; Emmanuelle Poullet; Jean Burie; Daniel Boucher; Xiaoming Gao; Markus W. Sigrist; Frank K. Tittel. Continuous-wave mid-infrared laser sources based on difference frequency generation. Comptes Rendus. Physique, Volume 8 (2007) no. 10, pp. 1129-1150. doi : 10.1016/j.crhy.2007.09.011. https://comptes-rendus.academie-sciences.fr/physique/articles/10.1016/j.crhy.2007.09.011/

[1] G. Phillips; P. Hinske; W. Demtröder; K. Möllmann; R. Beigang Appl. Phys. B, 47 (1988), pp. 127-133

[2] Ch. Hornberger; M. König; S.B. Rai; W. Demtröder J. Chem. Phys., 190 (1995), pp. 171-177

[3] S.-C. Hsu; R.H. Schwendeman; G. Magerl IEEE J. Quantum Electron., QE-24 (1988), pp. 2294-2301

[4] G. Magerl; W. Schupita; E. Bonek IEEE J. Quantum Electron., QE-18 (1982), pp. 1214-1220

[5] A. Romann; M.W. Sigrist Appl. Phys. B, 75 (2002), pp. 377-383

[6] P. Werle Spectrochimica Acta A, 54 (1998), pp. 197-236

[7] P.J. McCann; Y. Selivanov Mater. Res. Soc. Symp. Proc., 891 (2006) (0891-EE01-05)

[8] L. Coldren IEEE J. Select. Topics Quantum Electron., 6 (2000), pp. 988-999

[9] http://www.ekipstech.com

[10] J. Faist; F. Capasso; D.L. Sivco; C. Sirtori; A.L. Hutchinson; A.Y. Cho Science, 264 (1994), pp. 553-555

[11] F. Capasso; C. Gmachl; A. Tredicucci; A.L. Hutchinson; D.L. Sivco; A.Y. Cho OPN, 10 (1999), pp. 32-37

[12] J.S. Yu; S. Slivken; S.R. Darvish; A. Evans; B. Gokden; M. Razeghi Appl. Phys. Lett., 87 (2005), p. 041104

[13] A. Evans; J. Nguyen; S. Slivken; J.S. Yu; S.R. Darvish; M. Razeghi Appl. Phys. Lett., 88 (2006), p. 051105

[14] http://www.alpeslasers.ch

[15] G. Wysocki; R.F. Curl; F.K. Tittel; F. Capasso; L. Diehl; M. Troccoli; G. Höfler; R. Maulini; J. Faist Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies 2007 Technical Digest, Optical Society of America, Washington, DC, 2007 (CFB3)

[16] R.Q. Yang Superlattices Microstruct., 17 (1995), pp. 77-83

[17] J.H. Miller; Y.A. Bakhirkin; T. Ajtai; F.K. Tittel; C.J. Hill; R.Q. Yang Appl. Phys. B, 85 (2006), pp. 391-396

[18] L.E. Christensen; C.R. Webster; R.Q. Yang Appl. Opt., 46 (2007), pp. 1132-1138

[19] R.Q. Yang; J.L. Bradshaw; J.D. Bruno; J.T. Pham; D.E. Wortman; R.L. Tober Appl. Phys. Lett., 81 (2002), pp. 397-399

[20] R.Q. Yang; C.J. Hill; B.H. Yang; C.M. Wong; R.E. Muller; P.M. Echternach Appl. Phys. Lett., 84 (2004), pp. 3699-3701

[21] R.Q. Yang; C.J. Hill; B.H. Yang Appl. Phys. Lett., 87 (2005), p. 151109

[22] K. Mansour; Y. Qiu; C.J. Hill; A. Soibel; R.Q. Yang Electron. Lett., 42 (2006), pp. 1034-1035

[23] M.H. Dunn; M. Ebrahimzadeh Science, 286 (1999), pp. 1513-1517

[24] G.A. Turnbull; D. McGloin; I.D. Lindsay; M. Ebrahimzadeh; M.H. Dunn Opt. Lett., 25 (2000), pp. 341-343

[25] M. Ebrahimzadeh (I.T. Sorokina; K.L. Vodopyanov, eds.), Topics in Appl. Phys., vol. 89, Springer-Verlag, Berlin–Heidelberg–New York, 2003, pp. 179-213

[26] M.M.J.W. Herpen; S. Li; S.E. Bisson; F.J.M. Harren Appl. Phys. Lett., 81 (2002), pp. 1157-1159

[27] M.M.J.W. Herpen; S.E. Bisson; A.K.Y. Ngai; F.J.M. Harren Appl. Phys. B, 78 (2004), pp. 281-286

[28] A.K.Y. Ngai; S.T. Persijn; G. von Basum; F.J.M. Harren Appl. Phys. B, 85 (2006), pp. 173-180

[29] A. Henderson; R. Stafford Opt. Express, 14 (2006), pp. 767-772

[30] A.S. Pine J. Opt. Soc. Am., 64 (1974), pp. 1683-1690

[31] P. Canarelli; Z. Benko; R.F. Curl; F.K. Tittel J. Opt. Soc. Am. B, 9 (1992), pp. 197-202

[32] A.H. Hielscher; C.E. Miller; D.C. Bayard; K.P. Smolka; R.F. Curl; F.K. Tittel J. Opt. Soc. Am. B, 9 (1992), pp. 1962-1967

[33] D. Richter; P. Weibring Appl. Phys. B, 82 (2006), pp. 479-486

[34] P. Weibring; D. Richter; A. Fried; J.G. Walega; C. Dyroff Appl. Phys. B, 85 (2006), pp. 207-218

[35] W. Chen; D. Boucher; F. Tittel Recent advances in continuous-wave laser difference-frequency generation in the mid-infrared: State of the art, applications, and perspectives, Recent Research Developments in Applied Physics, vol. 2, Transworld Research Network, 2002, pp. 27-68

[36] C. Fischer; M.W. Sigrist (I.T. Sorokina; K.L. Vodopyanov, eds.), Topics in Appl. Phys., vol. 89, Springer-Verlag, Berlin–Heidelberg–New York, 2003, pp. 97-140

[37] F.K. Tittel; D. Richter; A. Fried (I.T. Sorokina; K.L. Vodopyanov, eds.), Topics in Appl. Phys., vol. 89, Springer-Verlag, Berlin–Heidelberg–New York, 2003, pp. 445-510

[38] H. Waechter; M.W. Sigrist Springer Handbook of Lasers and Photonics (F. Träger, ed.), Springer, Berlin, Heidelberg, 2007, pp. 801-814

[39] J.A. Armstrong; N. Bloembergen; J. Ducuing; P.S. Pershan Phys. Rev., 127 (1962), pp. 1918-1939

[40] G.D. Boyd; D.A. Kleinman J. Appl. Phys., 39 (1968), pp. 3597-3642

[41] T. Chu; M. Broyer J. Phys., 4 (1985), pp. 523-533

[42] J.-J. Zondy Opt. Commun., 149 (1998), pp. 181-206

[43] E.J. Canto-Said; M.P. McCann; P.G. Wigley; G.J. Dixon Opt. Lett., 20 (1995), pp. 1268-1270

[44] U. Simon; S. Waltman; I. Loa; F.K. Tittel; L. Goldberg J. Opt. Soc. Am., 12 (1995), pp. 323-327

[45] K. Petrov; S. Waltman; R. Curl; F. Tittel; L. Hollberg Appl. Phys. B, 61 (1995), pp. 553-558

[46] D. Richter, Ph.D. dissertation, Rice University, 2000

[47] W. Chen; J. Burie; D. Boucher Rev. Sci. Instrum., 67 (1996), pp. 3411-3415

[48] W. Chen; E. Poullet; J. Burie; D. Boucher; M.W. Sigrist; J.-J. Zondy; L. Isaenko; A. Yèlisseyev; S. Lobanov Appl. Opt., 44 (2005), pp. 4123-4129

[49] http://www.eksma.lt

[50] V.G. Dmitriev; G.G. Gurzadyan; D.N. Nikogosyan Handbook of Nonlinear Optical Crystals, Springer Series in Optical Science, vol. 64, Springer, Berlin/New York, 1997

[51] W. Chen; G. Mouret; D. Boucher Appl. Phys. B, 67 (1998), pp. 375-378

[52] W. Chen; J. Burie; D. Boucher Spectrochimica Acta A, 55 (1999), pp. 2057-2075

[53] W.K. Burns; W. McElhanon; L. Goldberg IEEE Photon. Technol. Lett., 6 (1994), pp. 252-254

[54] L.E. Myers; R.C. Eckardt; M.M. Fejer; R.L. Byer; W.R. Bosenberg; J.W. Pierce J. Opt. Soc. Am. B, 12 (1995), pp. 2102-2116

[55] L.E. Myers Periodically poled materials for nonlinear optics (D.M. Finlayson; B.D. Sinclair, eds.), Advances in Lasers and Applications, SUSSP Publications, 1999, pp. 141-180

[56] L.E. Myers; M.L. Bortz; M.A. Arbore; R.C. Eckardt; M.M. Fejer; R.L. Byer OPN, 6 (1995), pp. 30-31

[57] L.E. Myers; R.C. Eckardt; M.M. Fejer; R.L. Byer Opt. Lett., 21 (1996), pp. 591-593

[58] P.E. Powers; T.J. Kulp; S.E. Bisson Opt. Lett., 23 (1998), pp. 159-161

[59] J.R. Kurz; X.P. Xia; M.M. Fejer Opt. Lett., 27 (2002), pp. 1445-1447

[60] L.A. Eyres, P.J. Tourreau, T.J. Pinguet, C.B. Ebert, J.S. Harris, M.M. Fejer, B. Gerard, E. Lallier, Stanford University Annual Report, 1998–1999 (1999) 37

[61] L.A. Eyres; P.J. Tourreau; T.J. Pinguet; C.B. Ebert; J.S. Harris; M.M. Fejer; L. Becouarn; B. Gerard; E. Lallier Appl. Phys. Lett., 79 (2001), pp. 904-906

[62] K.L. Vodopyanov; O. Levi; P.S. Kuo; T.J. Pinguet; J.S. Harris; M.M. Fejer; B. Gerard; L. Becouarn; E. Lallier Opt. Lett., 29 (2004), pp. 1912-1914

[63] Z.L. Liau; D.E. Mull Appl. Phys. Lett., 56 (1990), pp. 737-739

[64] L. Gordon; G.L. Woods; R.C. Eckardt; R.R. Route; R.S. Feigelson; M.M. Fejer; R.L. Byer Electron. Lett., 29 (1993), pp. 1942-1944

[65] M.J. Angell; R.M. Emerson; J.L. Hoyt; J.F. Gibbons; L.A. Eyres; M.L. Bortz; M.M. Fejer Appl. Phys. Lett., 64 (1994), pp. 3107-3109

[66] D. Zheng; L.A. Gordon; Y.S. Wu; R.K. Route; M.M. Fejer; R.L. Byer; R.S. Feigelson Electrochem. Soc., 144 (1997), pp. 1439-1441

[67] D. Zheng; L.A. Gordon; Y.S. Wu; R.S. Feigelson; M.M. Fejer; R.L. Byer; K.L. Vodopyanov Opt. Lett., 23 (1998), pp. 1010-1012

[68] E. Lallier; M. Brevignon; J. Lehoux Opt. Lett., 23 (1998), pp. 1511-1513

[69] A. Mustellier; E. Rosencher; A. Godard; M. Baudrier; M. Lefebvre; G. Mennerat; Ph. Kupecek; Ph. Lemasson Appl. Phys. Lett., 84 (2004), pp. 4424-4426

[70] D. Richter; P. Weibring; A. Fried Opt. Express, 15 (2007), pp. 564-571

[71] E.J. Lim; H.M. Hertz; M.L. Bortz; M.M. Fejer Appl. Phys. Lett., 59 (1991), pp. 2207-2209

[72] M.H. Chou; J. Hauden; M.A. Arbore; M.M. Fejer Opt. Lett., 23 (1998), pp. 1004-1006

[73] D. Hofmann; G. Schreiber; C. Haase; H. Herrmann; W. Grundkotter; R. Ricken; W. Sohler Opt. Lett., 24 (1999), pp. 896-898

[74] O. Tadanaga; T. Yanagawa; Y. Nishida; H. Miyazawa; K. Magari; M. Asobe; H. Suzuki Appl. Phys. Lett., 88 (2006), p. 061101

[75] W. Denzer; G. Hancock; A. Hutchinson; M. Munday; R. Peverall; G.A.D. Ritchie Appl. Phys. B, 86 (2007), pp. 437-441

[76] S.J.B. Yoo; R. Bhat; C. Caneau; M.A. Koza Appl. Phys. Lett., 66 (1995), pp. 3410-3412

[77] S.J.B. Yoo; C. Caneau; R. Bhat; M.A. Koza; A. Rajhel; N. Antoniades Appl. Phys. Lett., 68 (1996), pp. 2609-2611

[78] A. Fiore; V. Berger; E. Rosencher; P. Bravetti; N. Laurent; J. Nagle Appl. Phys. Lett., 71 (1997), pp. 3622-3624

[79] A. Fiore; V. Berger; E. Rosencher; P. Bravetti; J. Nagle Nature, 391 (1998), pp. 463-466

[80] P. Bravetti; A. Fiore; V. Berger; E. Rosencher; J. Nagle; O. Gauthier-Lafaye Opt. Lett., 23 (1998), pp. 331-333

[81] H. Komine; W.H. Long; J.W. Tully; E.A. Stappaerts Opt. Lett., 23 (1998), pp. 661-663

[82] R. Haïdar; Ph. Kupecek; E. Rosencher Appl. Phys. Lett., 83 (2003), pp. 1506-1508

[83] R. Haïdar; N. Forget; P. Kupecek; E. Rosencher J. Opt. Soc. Am. B, 21 (2004), pp. 1522-1534

[84] M. Baudrier-Raybaut; R. Haïdar; Ph. Kepecek; Ph. Lemasson; E. Rosencher Nature, 432 (2004), pp. 374-376

[85] M. Baudrier-Raybaut; R. Haïdar; Ph. Kupecek; Ph. Lemasson; E. Rosencher Nature, 432 (2004), pp. 374-376

[86] E. Rosencher C. R. Acad. Sci. (Paris) Série IV, 1 (2000), pp. 615-625

[87] D.S. Hum; M.M. Fejer C. R. Physique, 8 (2007), pp. 180-198

[88] P.F. Bordui; M.M. Fejer Annu. Rev. Mater. Sci., 23 (1993), pp. 321-380

[89] R.V. Ramaswamy; X. Cao Nonlinear Opt., 4 (1993), p. 115

[90] P. Maddaloni; G. Gagliardi; P. Malara; P. De Natale Appl. Phys. B, 80 (2005), pp. 141-145

[91] J. Cousin; P. Masselin; W. Chen; D. Boucher; S. Kassi; D. Romanini; P. Szriftgiser Appl. Phys. B, 83 (2006), pp. 261-266

[92] R.S. Putnam; D.G. Lancaster Appl. Opt., 38 (1999), pp. 1513-1522

[93] L. Deng; X. Gao; Z. Cao; W. Chen; Y. Yuan; W. Zhang; Z. Gong Opt. Commun., 268 (2006), pp. 110-114

[94] A. Ashkin; G.D. Boyd; J.M. Dziedzic Phys. Rev. Lett., 11 (1963), pp. 14-17

[95] D. Richter; A. Fried; B.P. Wert; J.G. Walega; F.K. Tittel Appl. Phys. B, 75 (2002), pp. 281-288

[96] J. Cousin, W. Chen, D. Bigourd, D. Boucher, S. Kassi, D. Romanini, in preparation

[97] U. Simon; Z. Benko; M.W. Sigrist; R.F. Curl; F.K. Tittel Appl. Opt., 32 (1993), pp. 6650-6654

[98] K.P. Petrov; L. Goldberg; W.K. Burns; R.F. Curl; F.K. Tittel Opt. Lett., 21 (1996), pp. 86-88

[99] D. Richter; D. Lancaster; R.F. Curl; W. Neu; F.K. Tittel Appl. Phys. B, 67 (1998), pp. 347-350

[100] M. Seiter; D. Keller; M.W. Sigrist Appl. Phys. B, 67 (1998), pp. 351-356

[101] K.P. Petrov; A.P. Roth; T.L. Patterson; T.P.S. Thoms; L. Huang; A.T. Ryan; D.J. Bamford Appl. Phys. B, 70 (2000), pp. 777-782

[102] D. Richter; D. Lancaster; F.K. Tittel Appl. Opt., 39 (2000), pp. 4444-4460

[103] S. Stry; P. Hering; M. Mürtz Appl. Phys. B, 75 (2002), pp. 297-303

[104] K. Fradkin-Kashi; A. Arie; P. Urenski; G. Rosenman Appl. Phys. B, 71 (2000), pp. 251-255

[105] W. Chen; G. Mouret; D. Boucher; F. Tittel Appl. Phys. B, 72 (2001), p. 873

[106] X. Gao; L. Deng; W. Chen; D. Boucher; F. Tittel Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies 2006, Technical Digest, Optical Society of America, Washington, DC, 2006 (JThC57) (ISBN: 1-55752-813-6)

[107] C. Fischer; M.W. Sigrist; Q. Yu; M. Seiter Opt. Lett., 26 (2001), pp. 1609-1611

[108] H.-D. Kronfeldt; G. Basar; B. Sumpf J. Opt. Soc. Am. B, 13 (1996), pp. 1859-1863

[109] W. Schade; T. Blanke; U. Willer; C. Rempel Appl. Phys. B, 63 (1996), pp. 99-102

[110] D. Lee; T. Kaing; J.-J. Zondy Appl. Phys. B, 67 (1998), pp. 363-367

[111] A. Khorsandi; U. Willer; P. Geiser; W. Schade Appl. Phys. B, 77 (2003), pp. 509-513

[112] K. Petrov; R. Curl; F. Tittel; L. Goldberg Opt. Lett., 21 (1996), pp. 1451-1453

[113] B. Sumpf; D. Rehle; T. Kelz; H.-D. Kronfeldt Appl. Phys. B, 67 (1998), pp. 369-373

[114] W.C. Eckhoff; R.S. Putnam; S. Wang; R.F. Curl; F.K. Tittel Appl. Phys. B, 63 (1996), pp. 437-441

[115] S. Haidar; K. Miyamoto; H. Ito Opt. Commun., 241 (2004), pp. 173-178

[116] J. Saikawa; M. Miyazaki; M. Fujii; H. Ishizuki; T. Taira Advanced Solid-State Photonics, OSA Technical Digest Series (CD), Optical Society of America, 2007 (paper MB8)

[117] W. Chen; M.W. Sigrist; J.-J. Zondy; S. Tinturier; F. Borel; R. Bocquet; J. Burie; D. Boucher; L. Isaenko; A. Yelisseyev; S. Lobanov Conference on Lasers and Electro-Optics/International Quantum Electronics Conference and Photonic Applications Systems Technologies, Optical Society of America, 2004 Technical Digest (CD), paper CFI2

[118] S.E. Bisson; T.J. Kulp; O. Levi; J.S. Harris; M.M. Fejer Appl. Phys. B, 85 (2006), pp. 199-206

[119] R. Haïdar; Ph. Kupecek; E. Rosencher; R. Triboulet Appl. Phys. Lett., 82 (2003), pp. 1167-1169

[120] R.L. Byer; R.L. Hebst Parametric oscillation and mixing (Y.-R. Shen, ed.), Nonlinear Infrared Generation, Springer-Verlag, 1977

[121] L. Goldberg; W.K. Burns; R.W. McElhanon Appl. Phys. Lett., 67 (1995), pp. 2910-2912

[122] L. Deng, X. Gao, Z. Cao, W. Zhang, Z. Gong, W. Chen, Opt. Commun. (2007), submitted for publication

[123] R.L. Sutherland Handbook of Nonlinear Optics, Marcel Dekker, Inc., New York, 1996

[124] W.L. Bond J. Appl. Phys., 36 (1965), pp. 1674-1677

[125] D.F. Nelson; R.M. Mikulyak J. Appl. Phys., 45 (1974), pp. 3688-3689

[126] G.D. Boyd; H.M. Kasper; J.H. McFee J. Appl. Phys., 44 (1973), pp. 2809-2812

[127] S. Fossier; S. Salaüm; J. Mangin; O. Bidault; I. Thénot; J.-J. Zondy; W. Chen; F. Rotermund; V. Petrov; P. Petrov; J. Henningsen; A. Yelisseyev; L. Isaenko; S. Lobanov; O. Balachninaite; G. Slekys; V. Sirutkaitis J. Opt. Soc. Am. B, 21 (2004), pp. 1981-2007

[128] G. Knippels; A. van der Meer; A. Macleod; A. Yelisseyev; L. Isaenko; S. Lobanov; I. Thénot; J.-J. Zondy Opt. Lett., 26 (2001), pp. 617-619

[129] D. Rehle; D. Leleux; M. Erdelyi; F.K. Tittel; M. Fraser; S. Friedfeld Appl. Phys. B, 75 (2001), pp. 947-952

[130] J. Chen; S. So; H. Lee; M.P. Fraser; R.F. Curl; T. Harman; F.K. Tittel Appl. Spectrosc., 58 (2004), pp. 243-247

[131] H.Y. Clark; L. Corner; W. Denzer; G. Hancock; A. Hutchinson; M. Islam; R. Peverall; G.A.D. Ritchie Chem. Phys. Lett., 39 (2004), pp. 102-108

[132] Z. Cao; X. Gao; L. Deng; W. Chen; Y. Yuan; W. Zhang; Z. Gong Spectrochimica Acta A, 68 (2007), pp. 74-77

[133] D. Richter; M. Erdelyi; R.F. Curl; F.K. Tittel; C. Oppenheimer; H.J. Duffell; M. Burton Opt. Lasers Engrg., 37 (2002), pp. 171-186

[134] W. Chen; F. Cazier; F. Tittel; D. Boucher Appl. Opt., 39 (2000), pp. 6238-6242

[135] E. Pollet, W. Chen, D. Boucher, in preparation

[136] A. Khorsandi; U. Willer; L. Wondraczek; W. Schade Appl. Opt., 43 (2004), pp. 6481-6486

[137] R. Barron-Jimenez; J.A. Caton; T.N. Anderson; R.P. Lucht; T. Walther; S. Roy; M.S. Brown; J.R. Gord Appl. Phys. B, 85 (2006), pp. 185-197

[138] L. Wondraczek; A. Khorsandi; U. Willer; G. Heide; W. Schade; G.H. Frischat Combust. Flame, 138 (2004), pp. 30-39

[139] A. Klingbeil; J.B. Jeffries; R.K. Hanson Proc. Combust. Inst., 31 (2007), pp. 807-815

[140] A. Brun; G. Pesce; G. Rusciano; A. Sasso Spectrochimica Acta A, 58 (2002), pp. 2481-2488

[141] A. Brun; G. Pesce; G. Rusciano; A. Sasso J. Mol. Spectrosc., 215 (2002), pp. 244-250

[142] J. Henningsen; J. Hald Appl. Phys. B, 76 (2003), pp. 441-449

[143] E. Poullet; W. Chen; J. Burie; D. Boucher Int. J. IR MMW, 24 (2003), pp. 537-554

[144] A. Vitcu; R. Ciurylo; R. Wehr; J.R. Drummond; A.D. May Appl. Opt., 43 (2004), pp. 4965-4971

[145] D. Lisak; G. Rusciano; A. Sasso J. Mol. Spectrosc., 227 (2004), pp. 162-171

[146] Z.S. Li; M. Rupinski; J. Zetterberg; Z.T. Alwahabi; M. Alden Appl. Phys. B, 79 (2004), pp. 135-138

[147] D. Halmer; S. Thelen; P. Hering; M. Mürtz Appl. Phys. B, 85 (2006), pp. 437-443

[148] M. Mürtz; D. Halmer; M. Horstjann; S. Thelen; P. Hering Spectrochim. Acta A, 63 (2006), pp. 963-969

[149] M. Erdelyi; D. Richter; F.K. Tittel Appl. Phys. B, 75 (2002), pp. 289-295

[150] M.E. Trudeau; P. Chen; G.A. Garcia; L.W. Hollberg; P.P. Tans Appl. Opt., 45 (2006), pp. 4136-4141

[151] H. Waechter; M.W. Sigrist Appl. Phys. B, 87 (2007), pp. 539-546

[152] R.F. Curl; F.K. Tittel Ann. Rep. Progr. Chem. C, 98 (2002), pp. 217-270

[153] T. Topfer; K.P. Petrov; Y. Mine; D. Jundt; R.F. Curl; F.K. Tittel Appl. Opt., 36 (1997), pp. 8042-8049

[154] M. Takahashi; S. Ohara; T. Tezuka; H. Ashizawa; M. Endo; S. Yamaguchi; K. Nanri; T. Fujioka Appl. Phys. B, 78 (2004), pp. 229-233

[155] T. Yanagawa; O. Tadanaga; K. Magari; Y. Nishida; H. Miyazawa; M. Asobe; H. Suzuki Appl. Phys. Lett., 89 (2006), p. 221115

[156] R. Bartlome; M. Baer; M.W. Sigrist Rev. Sci. Instrum., 78 (2007) (0131101–01311106)

[157] S. Stry; S. Thelen; J. Sacher; D. Halmer; P. Hering; M. Mürtz Appl. Phys. B, 85 (2006), pp. 365-374

[158] P. Malara; P. Maddaloni; G. Gagliardi; P. De Natale Opt. Express, 14 (2006), pp. 1304-1313

[159] P. Maddaloni; P. Malara; G. Gagliardi; P. De Natale Appl. Phys. B, 85 (2006), pp. 219-222

[160] D. Lancaster; D. Richter; R.F. Curl; F.K. Tittel; L. Goldberg; J. Koplow Opt. Lett., 24 (1999), pp. 1744-1746

[161] H.C. Chui; G.L. Woods; M.M. Fejer; E.L. Martinet; J.S. Harris Appl. Phys. Lett., 66 (1995), pp. 265-267

[162] T. Umeki; M. Asobe; Y. Nishida; O. Tadanaga; K. Magari; T. Yanagawa; H. Suzuki Opt. Lett., 32 (2007), pp. 1129-1131

[163] R.F. Service Science, 275 (1997), p. 1878

[164] X. Wan; H. Xu; T. He; D. Lin; H. Luo J. Appl. Phys., 93 (2003), pp. 4766-4768

[165] M. Raybaut; A. Godard; R. Haïdar; M. Lefebvre; P. Kupecek; P. Lemasson; E. Rosencher Opt. Lett., 31 (2006), pp. 220-222

[166] D. Wasserman; S.S. Howard; C. Gmachl; A. Belyanin; D. Sivco Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies 2007 Technical Digest, Optical Society of America, Washington, DC, 2007 (JWA138)

[167] http://www.novawavetech.com

[168] M. Asobe, Y. Nishida, O. Tadanaga, T. Yanagawa, T. Umeki, H. Suzuki, in: CLEO/Europe-IQEC 2007 Technical Digest, Postdeadline paper CD-2168

[169] E. Takaoka; K. Kato Jap. J. Appl. Phys. Part 1, 38 (1999), pp. 2755-2759

[170] O. Balachninaite; L. Petraviciute; M. Maciulevicius; V. Sirutkaitis; L. Isaenko; S. Lobanov; A. Yelisseyev; J.-J. Zondy Ultragarsas, 3 (2006), pp. 7-10 (ISSN: 1392-2114)

[171] W. Chen, E. Poullet, R. Bocquet, J. Burie, D. Boucher, M.W. Sigrist, J.-J. Zondy, L. Isaenko, A. Yelisseyev, S. Lobanov, in: Nonlinear Optics (OSA Topic Meetings): Materials, Fundamentals and Applications Technical Digest 2004, ISBN 1-55752–773-3, PD8-1

[172] T. Skauli; K.L. Vodopyanov; T.J. Pinguet; A. Schober; O. Levi; L.A. Eyres; M.M. Fejer; J.S. Harris; B. Gerard; L. Becouarn; E. Lallier; G. Arisholm Opt. Lett., 27 (2002), pp. 628-630

[173] I. Shoji; T. Kondo; A. Kitamoto; M. Shirane; R. Ito J. Opt. Soc. Am. B, 14 (1997), pp. 2268-2294

[174] O. Levi; T.J. Pinguet; T. Skauli; L.A. Eyres; K.R. Parameswaran; J.S. Harris; M.M. Fejer; T.J. Kulp; S.E. Bisson; B. Gerard; E. Lallier; L. Becouarn Opt. Lett., 27 (2002), pp. 2091-2093

[175] R. Haïdar; A. Mustelier; Ph. Kepecek; E. Rosencher; R. Triboulet; Ph. Lemasson; G. Mennerat J. Appl. Phys., 91 (2002), pp. 2550-2552

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