МЕТОДИКА ИЗМЕРЕНИЙ ДИСПЕРСИИ ГРУППОВОЙ СКОРОСТИ В ШИРОКОМ СПЕКТРАЛЬНОМ ДИАПАЗОНЕ В ИНФРАКРАСНОЙ ОБЛАСТИ СПЕКТРА

оптическое волокно, измерения дисперсии, средний ИК-диапазон

1. Budni, P.A. High-power/high-brightness diodepumped 1.9-μm thulium and resonantly pumped 2.1-μm holmium lasers / P.A. Budni [et al.] // IEEE J. Sel. Top.Quantum Electron. – 6, 629 (2000).

2. Tsai, T.Y. Q-Switched 2-μm Lasers by use of a Cr2+:ZnSe Saturable Absorber / T.Y. Tsai, M. Birnbaum // Appl. Opt. – 40, 6633 (2001).

3. Mateos, X. Efficient 2-mm Continuous-Wave Laser Oscillation of Tm3+:KLu(WO4)2 / X. Mateos [et al.] // IEEE J. Quantum Electron – 42, 1008 (2006).

4. Cai, S. Room-temperature cw and pulsed operation of a diode-end-pumped Tm:YAP laser / S. Cai [et al.] // Appl. Phys. – B 90, 133 (2008).

5. Sharp, R. C. 190-fs passively modelocked thulium fiber laser with a low threshold / R. C. Sharp [et al.] // Opt. Lett. – 21, 881–883 (1996).

6. Engelbrecht, M. Ultrafast thulium-doped fiberoscillator with pulse energy of 4.3 nJ / M. Engelbrecht [et al.] // Opt. Lett. – 33, 690–692 (2008).

7. Haxsen, F. Pulse characteristics of a passively mode-locked thulium fiber laser with positive and negative cavity dispersion / F. Haxsen // Opt. Express. – 18, 18981–18988, 2010.

8. Kivisto, S. 600-fs Mode-Locked Tm-Ho-doped Fiber Laser Synchronized to Optical Clock With Optically Driven Semiconductor Saturable Absorber / S. Kivisto, O. Okhotnikov // IEEE Phot. Tech. Lett. – 23, 477–479 (2011).

9. Knight, J. C. Photonic crystal fibres / J. C. Knight // Nature. – 424, 847–851 (2003).

10. Russell, P. St. J. Photonic crystal fibers / St. J. P. Russell // Science. – 299, 358–362 (2003).

11. Alfano, R. R. Emission in the region 4000 to 7000 A via four-photon coupling in glass /R. R. Alfano, S. L. Shapiro // Phys. Rev. Lett. – 24, 584–587 (1970).

12. Ranka, J. K. Visible continuum generation in airsilica microstructure optical fibers with anomalous dispersion at 800 nm / J. K. Ranka,

13. R. S. Windeler, A. J. Stentz // Opt. Lett. – 25, 25–27 (2000).

14. Cohen, Leonard G. Comparison of Single-Mode Fiber Dispersion Measurement Techniques / Leonard G. Cohen // Journal of lightwave technology. – 3, 958 – 966 (1985)

15. Costa, B. Phase Shift Technique for the Measurement of Chromatic Dispersion in Optical Fibers Using LED's / B. Costa [et al.] // IEEE Trans. Microwave Theory Tech. – 30, 1497 (1982).

16. Nguyen, T. N. Simultaneous measurement of anomalous group-velocity dispersion and nonlinear coefficient in optical fibers using solitoneffect compression / T. N. Nguyen // Opt. Commun. – 278, 60 (2007)

17. Abedin, K. S. Measurement of the chromatic dispersion of an optical fiber by use of a Sagnac interferometer employing asymmetric modulation /K. S. Abedin [et al.] // Opt. Lett. – 25, 299 (2000).

18. Zong, L. Rapid and accurate chromatic dispersion measurement of fiber using asymmetric Sagnac interferometer / L. Zong [et al.] // Opt. Lett. – 36, 660–662 (2011).

19. Akhmetshin, U G. New single-mode fibres with the flat spectral dependence of the chromatic dispersion varying over the fibre length / U G Akhmetshin [et al.] // Quantum Electron – 33, 265–267 (2003).