1. High-power photonic-bandgap fiber laser
- Author
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Vladimir F. Khopin, Dmitry Gaponov, Philippe Roy, Mikhail E. Likhachev, Mikhail Yu. Yashkov, M.Y. Salganskii, Evgeny M. Dianov, Aleksei N Gur'yanov, Sergei L. Semjonov, Mikhail M. Bubnov, and Sébastien Février
- Subjects
Optical fiber ,Materials science ,business.industry ,Slope efficiency ,Physics::Optics ,Polarization-maintaining optical fiber ,Cladding (fiber optics) ,Graded-index fiber ,Atomic and Molecular Physics, and Optics ,law.invention ,Double-clad fiber ,Optics ,law ,Fiber laser ,business ,Photonic crystal - Abstract
An original architecture of an active fiber allowing a nearly diffraction-limited beam to be produced is demonstrated. The active medium is a double-clad large-mode-area photonic-bandgap fiber consisting of a 10,000 ppm by weight Yb(3+)-doped core surrounded by an alternation of high- and low-index layers constituting a cylindrical photonic crystal. The periodic cladding allows the robust propagation of a approximately 200 microm(2) fundamental mode and efficiently discriminates against the high-order modes. The M(2) parameter was measured to be 1.17. A high-power cw laser was built exhibiting 80% slope efficiency above threshold. The robust propagation allows the fiber to be tightly bent. Weak incidence on the slope efficiency was observed with wounding radii as small as 6 cm.
- Published
- 2008