1083 nm single frequency ytterbium doped fiber laser

An erbium-doped fiber laser is demonstrated using an erbium-doped fiber loop and a fiber grating. The no¨el ca¨ity configuration enables both a short ca¨ity length and easy tunability to be achie¨ed simultaneously. A maximum output power of ) 400 W has been achie¨ed, and single longitudinal mode ope

## Abstract A multiwavelength Ytterbium‐doped fiber ring laser operating at 1030 nm region is demonstrated using a Sagnac loop mirror. The Ytterbium‐doped fiber used is drawn from Yb~2~O~3~‐doped perform, which is fabricated through deposition process in conjunction with a solution doping technique

We have realized ytterbium fiber laser emitting at 1160 nm. To avoid a competition with a spontaneous lasing at shorter wavelengths we pumped laser into the core at wavelength of 1070 nm. Cladding pumped Yb-laser was used as a pump source. Also, the active fiber was heated up to 70°C to increase the

## Abstract An all‐fiber erbium‐ytterbium co‐doped fiber laser (EYDFL), with a double‐cladding erbium‐ytterbium co‐doped fiber (EYDF) of 15 m as active fiber, is reported. Up to 1.027‐W output power at 1567.0 nm under pump power of 3.16 W and slope efficiency of 34.5% with respect to the launched p

We report on an ytterbium-doped fiber laser (FL) remotely pumped by a commercial Yb:YAG thin-disk laser with a beam parameter product of 4 mm mrad and an emission wavelength of 1030 nm. The pump light absorption is 1.4 dB/m, which is 77 times lower than the peak value at 976 nm. The high-brilliance

We report a short-cavity fiber laser configured with a high-concentration erbium-doped fiber with stable singlefrequency output. The fiber laser utilized a fiber Bragg grating inscribed into a piece of polarization-maintaining optical fiber as the output coupler to ensure a stable single frequency l