Wavelength tunable CW Raman fibre ring laser operating at 1486–1551 nm
Wavelength tunable CW Raman fibre ring laser operating at 1486–1551 nm
- Author(s): P.C. Reeves-Hall and J.R. Taylor
- DOI: 10.1049/el:20010336
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- Author(s): P.C. Reeves-Hall 1 and J.R. Taylor 1
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View affiliations
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Affiliations:
1: Department of Physics, Femtosecond Optics Group, Imperial College, London, United Kingdom
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Affiliations:
1: Department of Physics, Femtosecond Optics Group, Imperial College, London, United Kingdom
- Source:
Volume 37, Issue 8,
12 April 2001,
p.
491 – 492
DOI: 10.1049/el:20010336 , Print ISSN 0013-5194, Online ISSN 1350-911X
A continuous-wave, wavelength tunable Raman fibre ring laser has been demonstrated operating at 1485–1551 nm with peak output power of over 400 mW, pumped at 1420 nm by a 1.58 W fibre laser.
Inspec keywords: laser beams; ring lasers; Raman lasers; fibre lasers; optical pumping; laser tuning
Other keywords:
Subjects: Stimulated Raman scattering and spectra; CARS; stimulated Brillouin and stimulated Rayleigh scattering and spectra; Laser resonators and cavities; Laser resonators and cavities; Nonlinear optics and devices; Fibre lasers and amplifiers; Laser beam modulation, pulsing and switching; mode locking and tuning; Laser beam characteristics and interactions; Laser beam modulation, pulsing and switching; mode locking and tuning; Fibre lasers and amplifiers
References
-
-
1)
- R.H. Stolen , E.P. Ippen . Raman gain in glass optical waveguides. Appl. Phys. Lett. , 276 - 278
-
2)
- R.H. Stolen , E.P. Ippen , A.R. Tynes . Raman oscillation in glass optical waveguide. Appl. Phys. Lett. , 62 - 64
-
3)
- Grubb, S.G., Erdogan, T., Mizrahi, V., Strasser, T., Cheung, W.Y., Reed, W.A., Lemaire, P.J., Kosinski, A.E., Nykolak, G., Becker, P.C.: `1.3 µm cascaded Raman amplifier in germanosilicate fibres', PD3, Conf. Optical Amplifiers and their Applications, 1993, Optical Society of America.
-
4)
- S.V. Chernikov , N.S. Platonov , D.V. Gapontsev , Do-Il Chang , M.J. Guy , J.R. Taylor . Raman fibre laser operating at 1.24 µm. Electron. Lett. , 680 - 681
-
5)
- Davidson, C.R., Chen, C.J., Nissov, M., Pilipetskii, A., Ramanujam, N., Kidorf, H.D., Pedersen, B., Mills, M.A., Lin, C., Hayee, M.I., Cai, J.X., Puc, A.B., Corbett, P.C., Menges, R., Li, H., Elyamani, A., Rivers, C., Bergano, N.S.: `1800 Gb/s transmission of one hundred and eighty 10 Gb/s WDM channelsover 7000 km using the full EDFA C-band', Optical Fiber Communication Conf., Tech. Dig. PostconferenceEdn., Trends in Optics and Photonics, 2000, 37, p. 242–244IEEE Cat. No. 00CH37079, .
-
1)