Photodarkening measurements in large mode area fibers

Yb-doped fibers are widely used in applications requiring high average output powers and high power pulse amplification. Photodarkening is one limiting factor in these fibers. In this paper, characterization of photodarkening in large-mode-area (LMA) fibers is presented building upon our previous work, which indicated that meaningful comparison of photodarkening properties from different fibers can be made as long as care is taken to equalize the excited state Yb concentration between samples. We have developed a methodology that allows rapid and reproducible photodarkening measurements to be performed and that enables quantitative comparison of the photodarkening propensity among fibers with different compositions and under different operating conditions. We have shown that this measurement technique can be used effectively for LMA fibers by employing cladding pumping rather than the more standard core pumping. Finally, we observe a seventh-order dependence of the initial photodarkening rate on the excited-state Yb population for two different Yb-doped fibers; this result implies that photodarkening of a Yb-doped fiber source fabricated using a particular fiber will be strongly dependent on the device configuration.

[1]  Richard C. Powell,et al.  Characteristics of laser-induced gratings in Pr 3+ - and Eu 3+ -doped silicate glasses , 1990 .

[2]  Almantas Galvanauskas,et al.  810 W continuous-wave and single-transverse-mode fibre laser using 20 μm core Yb-doped double-clad fibre , 2004 .

[3]  Mikko Söderlund,et al.  The potential of direct nanoparticle deposition for the next generation of optical fibers , 2006, SPIE OPTO.

[4]  Johan Nilsson,et al.  Latest development of high-power fiber lasers in SPI , 2004, SPIE LASE.

[5]  D. Gapontsev,et al.  135W CW fiber laser with perfect single mode output , 2002, Summaries of Papers Presented at the Lasers and Electro-Optics. CLEO '02. Technical Diges.

[6]  David L. Griscom,et al.  The electronic structure of SiO2: A review of recent spectroscopic and theoretical advances , 1977 .

[7]  M. M. Broer,et al.  Highly nonlinear near-resonant photodarkening in a thulium-doped aluminosilicate glass fiber. , 1993, Optics letters.

[8]  Matsuo Shoichiro,et al.  Photodarkening in Ytterbium-Doped Silica Fibers , 2009 .

[9]  David C. Brown,et al.  Thermal, stress, and thermo-optic effects in high average power double-clad silica fiber lasers , 2001 .

[10]  Jeffrey P. Koplow,et al.  Efficient second, third, fourth, and fifth harmonic generation of a Yb-doped fiber amplifIer. , 2002 .

[11]  M. Söderlund,et al.  Measuring photodarkening from single-mode ytterbium doped silica fibers. , 2006, Optics express.

[12]  R. Windeler,et al.  Effect of heat and H2 gas on the photo-darkening of Yb+3 fibers , 2006, 2006 Conference on Lasers and Electro-Optics and 2006 Quantum Electronics and Laser Science Conference.

[13]  Sophie LaRochelle,et al.  Photodegradation of fluoride glass blue fiber laser , 1997, Photonics West.

[14]  Simo Tammela,et al.  Photodarkening in ytterbium-doped silica fibers , 2005, SPIE Security + Defence.

[15]  L. B. Glebov Linear and Nonlinear Photoionization of Silicate Glasses , 2002 .

[16]  R L Cone,et al.  Ultraviolet-induced distributed-feedback gratings in Ce(3+) -doped silica optical fibers. , 1991, Optics letters.

[17]  G. Atkins,et al.  Photodarkening in Tb(3+)-doped phosphosilicate and germanosilicate optical fibers. , 1994, Optics letters.

[18]  D. Hanna,et al.  Ytterbium-doped fiber amplifiers , 1997 .