ct.\*:("Raman lasers")
Results 1 to 25 of 291
Selection :
Ultralow-threshold Raman laser using a spherical dielectric microcavitySPILLANE, S. M; KIPPENBERG, T. J; VAHALA, K. J et al.Nature (London). 2002, Vol 415, Num 6872, pp 621-623, issn 0028-0836Article
Analysis of the efficiency of a third order cascaded Raman laser operating at the wavelength of 1.24 μmBERTONI, A.Optical and quantum electronics. 1997, Vol 29, Num 11-12, pp 1047-1058, issn 0306-8919Article
Annular-beam pumped para-hydrogen Raman laserTAKASAKI, T; SUDA, A; SATO, K et al.Japanese journal of applied physics. 1996, Vol 35, Num 11, pp 5714-5717, issn 0021-4922, 1Article
An intracavity 16-μm Raman laser: a theoretical investigationBOTHA, L. R; VAN HEERDEN, S. P.IEEE journal of quantum electronics. 1994, Vol 30, Num 12, pp 2939-2945, issn 0018-9197Article
Control of Raman lasing in the nonimpulsive regimePEARSON, B. J; BUCKSBAUM, P. H.Physical review letters. 2004, Vol 92, Num 24, pp 243003.1-243003.4, issn 0031-9007Article
Suppression of lasing by stimulated Raman scattering in microdropletsKWOK, A. S; CHANG, R. K.Optics letters. 1993, Vol 18, Num 19, pp 1597-1599, issn 0146-9592Article
Ultrahigh-brightness laser beams with low prepulse obtained by stimulated Raman scatteringSHAW, M. J; BIALOLENKER, G; HIRST, G. J et al.Optics letters. 1993, Vol 18, Num 16, pp 1320-1322, issn 0146-9592Article
Raman fiber source for the 1.6-1.75 μm spectral regionDIANOV, E. M; KURKOV, A. S; MEDVEDKOV, O. I et al.Laser physics. 2003, Vol 13, Num 3, pp 397-400, issn 1054-660X, 4 p.Article
Distributed feedback fiber Raman laserPERLIN, Victor E; WINFUL, Herbert G.IEEE journal of quantum electronics. 2001, Vol 37, Num 1, pp 38-47, issn 0018-9197Article
7-W single-mode thulium-doped fibre laser pumped at 1230 nmKRAVTSOV, K. S; BUFETOV, I. A; MEDVEDKOV, O. I et al.Quantum electronics (Woodbury). 2005, Vol 35, Num 7, pp 586-590, issn 1063-7818, 5 p.Article
Dependence of the spectral parameters of a Raman fibre laser on the Bragg grating temperatureBABIN, S. A; KURKOV, A. S; POTAPOV, V. V et al.Quantum electronics (Woodbury). 2003, Vol 33, Num 12, pp 1096-1100, issn 1063-7818, 5 p.Article
14XX nm pump lasers for Raman and Er3+ doped fiber amplifiersFETISOVA, N. V; PIKHTIN, N. A; GOLIKOVA, E. G et al.SPIE proceedings series. 2003, pp 372-375, isbn 0-8194-4824-9, 4 p.Conference Paper
High-power fibre Raman lasers emitting in the 1.22-1.34-μm rangeKURKOV, A. S; DIANOV, E. M; BUBNOV, M. M et al.Quantum electronics (Woodbury). 2000, Vol 30, Num 9, pp 791-793, issn 1063-7818Article
The properties of amplified spontaneous emission noise in saturated fiber Raman amplifiers operating with CW signalsDAHAN, David; EISENSTEIN, Gadi.Optics communications. 2004, Vol 236, Num 4-6, pp 279-288, issn 0030-4018, 10 p.Article
Multiple output wavelength composite Raman fiber converterKURUKITKOSON, N; TURITSYN, S. K; KURKOV, A. S et al.Laser physics. 2004, Vol 14, Num 9, pp 1227-1230, issn 1054-660X, 4 p.Conference Paper
Raman oscillation with intracavity pumping of a fibre laserJACKSON, Stuart D.Optics communications. 2001, Vol 190, Num 1-6, pp 285-289, issn 0030-4018Article
1239/1484 nm cascaded phosphosilicate Raman fiber laser with CW output power of 1.36 W at 1484 nm pumped by CW Yb-doped double-clad fiber laser at 1064 nm and spectral continuum generationNAM SEONG KIM; PRABHU, M; CHENG LI et al.Optics communications. 2000, Vol 176, Num 1-3, pp 219-222, issn 0030-4018Article
Improvement of Raman amplifier gain flatness by broadband pumping sourcesKOBTSEV, S. M; PUSTOVSKIKH, A. A.Laser physics. 2004, Vol 14, Num 12, pp 1488-1491, issn 1054-660X, 4 p.Article
Fibre-optic tunable CW Raman laser operating around 1.3 μmLEWIS, S. A. E; CHERNIKOV, S. V; TAYLOR, J. R et al.Optics communications. 2000, Vol 182, Num 4-6, pp 403-405, issn 0030-4018Article
Efficient, miniature, cw yellow source based on an intracavity frequency-doubled Nd:YVO4 self-Raman laserXIAOLI LI; LEE, Andrew J; PASK, Helen M et al.Optics letters. 2011, Vol 36, Num 8, pp 1428-1430, issn 0146-9592, 3 p.Article
Prolonged Raman lasing in size-stabilized salt-water microdroplets on a superhydrophobic surfaceKARADAG, Y; GÜNDOGAN, M; YÜCE, M. Y et al.Optics letters. 2010, Vol 35, Num 12, pp 1995-1997, issn 0146-9592, 3 p.Article
Investigation and suppression of the pump-to-Stokes relative intensity noise transfer in chalcogenide waveguide Raman laserYING HUANG; HONGTAO ZHOU; PING SHUM, Perry et al.Optics letters. 2011, Vol 36, Num 12, pp 2366-2368, issn 0146-9592, 3 p.Article
Ring-down spectroscopy for studying properties of CW raman lasersMATSKO, Andrey B; SAVCHENKOV, Anatoliy A; MALEKI, Lute et al.Optics communications. 2006, Vol 260, Num 2, pp 662-665, issn 0030-4018, 4 p.Article
The application of laser Raman spectroscopy to fluid inclusion studies : A case study from poços de caldas alkaline massif, São Paulo State, BrazilCOSTANZO, Alessandra; FEELY, Martin; MOORE, Kathryn et al.Proceedings of SPIE, the International Society for Optical Engineering. 2005, pp 110-118, issn 0277-786X, isbn 0-8194-5811-2, 1Vol, 9 p.Conference Paper
Compact and portable multiline UV and visible Raman lasers in hydrogen-filled HC-PCFWANG, Y. Y; COUNY, F; LIGHT, P. S et al.Optics letters. 2010, Vol 35, Num 8, pp 1127-1129, issn 0146-9592, 3 p.Article
