Characterization of a thulium-doped silica-based optical fibre for S-band amplification

Proceedings of SPIE - The International Society for Optical Engineering

Volumn 6180, Issue , 2006, Pages

  Blanc, Wilfried ^a   Peterka, Pavel ^b   Faure, Basile ^a   Dussardier, Bernard ^a   Monnom, Gérard ^a   Kaŝík, Ivan ^b   Kaňka, Jiří ^b   Simpson, David ^c   Baxter, Greg ^c  

^a UNIVERSITÉ CÔTE D'AZUR   (France)

^b INSTITUTE OF PHOTONICS AND ELECTRONICS   (Czech Republic)

^c VICTORIA UNIVERSITY   (Australia)

Author keywords

Fibre amplifiers; Numerical modelling; Silica; Thulium

Indexed keywords

CHARACTERIZATION; COMPUTER SIMULATION; DOPING (ADDITIVES); LIGHT AMPLIFIERS; SILICA; THULIUM;

FIBRE AMPLIFIERS; NUMERICAL MODELING;

OPTICAL FIBERS;

EID: 33645395747     PISSN: 0277786X     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1117/12.675682     Document Type: Conference Paper

References (15)

1. B.M. Antipenko et al., Soviet Journal of Quantum Electronics, 13, 558, 1983
2. B. Faure et al., "Thulium-doped silica-fiber based S-band amplifier with increased efficiency by aluminum co-doping", Technical Digest of Optical Amplifiers and Their Applications, OWC2, San Francisco (USA), 2004
3. P. Peterka et al., "Theoretical modelling of S-band thulium-doped silica fiber amplifiers", Optical and Quantum Electronics, 36, 201-212, 2004
4. T. Kasamatsu, Y. Yano and T. Ono, "1.49-μm-band gain-shifted thulium-doped fiber amplifier for WDM transmission systems", Journal of Lightwave Technology, 20, 1826-1837, 2002
5. C. Floridia, M. T. Carvalho, S. R. Luthi and A. S. L. Gomes, "Modeling the distributed gain of single- (1050 or 1410 nm) and dual-wavelength- (800 + 1050 or 800 + 1410 nm) pumped thulium-doped fiber amplifiers", Optics Letters, 29, 1983-1985, 2004
6. J.E Townsend, S.B. Poole and D.N. Payne, "Solution-doping technique for fabrication of rare-earth-doped optical fibres", Electronics letters, 23, 329-331, 1987
7. S.D Jackson and T.A. King, "Theoretical modeling of Tm-doped silica fiber lasers", Journal of Lightwave Technology, 17, 948-956, 1999
8. E. Desurvire, "Erbium-Doped Fiber Amplifiers", Wiley-Intersciences publication, 1994
9. H. Kakiuchida et al., "Refractive index and density in F- and Cl-doped silica glasses", Applied Physics Letters, 86, 161907, 2005
10. 3+-doped tellurite glass for a broadband amplifier at 1.47 μm", Applied Optics, 39, 4979-4984, 2000
11. M.J.F. Digonnet, "Rare earth doped fiber lasers and amplifiers", New-York, Marcel Dekker, 1993
12. B.M. Walsh and N.P. Barnes, "Comparison of Tm.ZBLAN and Tm:silica fiber lasers; Spectroscopy and tunable pulsed laser operation around 1.9 μm", Applied Physics B: Laser and Optics, 78, 325-333, 2004
13. 3+ in Ge-Ga-As-S-CsBr glasses", Journal of Applied Physics, 97, 083542, 2005
14. 3-based glass for S-band amplification", Proc. SPIE 4645, 8-15, 2002
15. 3, 2001