相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。High Power, Tunable, Continuous-Wave Fiber Lasers in the L-Band Using Cascaded Raman Amplifiers
S. Arun et al.
IEEE PHOTONICS TECHNOLOGY LETTERS (2018)
Second (1178 nm) and third (1242 nm) Stokes Raman fiber lasers without intermediate Stokes cavities
E. B. Mejia et al.
LASER PHYSICS (2017)
Stokes-to-Stokes and anti-Stokes-to-Stokes energy transfer in a Raman fibre laser under different cavity configurations
M. Juarez-Hernandez et al.
LASER PHYSICS (2016)
Spectral changes produced by an adjustable intra-cavity Fabry-Perot interferometer inside an ytterbium-doped fiber laser
E. B. Mejia et al.
LASER PHYSICS (2015)
Comparative study of ring and random cavities for fiber lasers
Montserrat Fernandez-Vallejo et al.
APPLIED OPTICS (2014)
Temperature control of power distribution on the Stokes components of a Raman fiber laser
E. B. Mejia et al.
LASER PHYSICS (2014)
Generation of Raman sidebands aided by a CW Stokes signal
Ying Li et al.
OPTICS AND LASER TECHNOLOGY (2014)
Random distributed feedback fibre lasers
Sergei K. Turitsyn et al.
PHYSICS REPORTS-REVIEW SECTION OF PHYSICS LETTERS (2014)
An LD-pumped Raman fiber laser operating below 1 μm
S. I. Kablukov et al.
LASER PHYSICS LETTERS (2013)
All-in-one 1236 nm Yb/Raman fiber laser
J. W. Nicholson et al.
FIBER LASERS IX: TECHNOLOGY, SYSTEMS, AND APPLICATIONS (2012)
Theoretical and Experimental Optimization of O-Band Multiwavelength Mixed-Cascaded Phosphosilicate Raman Fiber Lasers
J. Z. Wang et al.
IEEE PHOTONICS JOURNAL (2011)
Raman fiber laser improvement by using Yb3+-doped fiber
L. de la Cruz-May et al.
LASER PHYSICS (2009)
Watts-level frequency doubling of a narrow line linearly polarized Raman fiber laser to 589 nm
D Georgiev et al.
OPTICS EXPRESS (2005)
Highly efficient free running cascaded Raman fiber laser that uses broadband pumping
YC Zhao et al.
OPTICS EXPRESS (2005)
Raman amplification for fiber communications systems
J Bromage
JOURNAL OF LIGHTWAVE TECHNOLOGY (2004)
Fibre-optic tunable CW Raman laser operating around 1.3 μm
SAE Lewis et al.
OPTICS COMMUNICATIONS (2000)