Add to ORKGA single frequency photonic bandgap fiber amplifier at 1178 nm is investigated experimentally and numerically. With a pump power of 81 W, a single frequency 1178 nm fiber laser of 10.3 W is obtained with a 3 W seed laser and a 20 m gain fiber. Numerical simulation is conducted with a rate equation model taking amplified spontaneous emission and stimulated Brillouin scattering (SBS) into consideration. Temperature distribution along the fiber is applied for SBS suppression, more than 50 W single frequency fiber laser at 1178 nm is predicted theoretically with a 5 W seed laser and a 40 m long gain fiber with five temperature steps
Stimulated Brillouin scattering (SBS) is a nonlinear phenomenon that occurs in a optical fiber as a ...
This book gives a contemporary overview of the technologies of single-frequency fiber lasers. The de...
A high-energy, single-frequency fiber laser with long pulse duration of 100 ns has been experimental...
This work presents theoretical, numerical, and experimental investigations of power scaling of core-...
A single-frequency 1014.8 nm Yb-doped fiber amplifier working at room temperature was investigated i...
This dissertation presents experimental and theoretical studies of high power, single-frequency, ytt...
This work presents theoretical, numerical, and experimental investigations of power scaling of core-...
A single wavelength ring Brillouin fiber laser (BFL) is demonstrated using a piece of Photonic cryst...
We discuss the dramatic development of high-power fiber laser technology in recent years and the pro...
The output power of a narrow line-width laser is usually limited by the Stimulated Brillouin Scatter...
Thesis (Ph. D.)--University of Rochester. Institute of Optics, 2009.Single frequency laser sources a...
The performance of single-wavelength Brillouin fiber lasers (BFLs) is investigated for different gai...
An all-fiber amplifier for a single-frequency blue laser was demonstrated for the first time, to the...
The objective of this final year project was to design and build a single frequency 1-micron fiber l...
A numerical model is developed to simulate stimulated Brillouin scattering (SBS) in high power singl...
Stimulated Brillouin scattering (SBS) is a nonlinear phenomenon that occurs in a optical fiber as a ...
This book gives a contemporary overview of the technologies of single-frequency fiber lasers. The de...
A high-energy, single-frequency fiber laser with long pulse duration of 100 ns has been experimental...
This work presents theoretical, numerical, and experimental investigations of power scaling of core-...
A single-frequency 1014.8 nm Yb-doped fiber amplifier working at room temperature was investigated i...
This dissertation presents experimental and theoretical studies of high power, single-frequency, ytt...
This work presents theoretical, numerical, and experimental investigations of power scaling of core-...
A single wavelength ring Brillouin fiber laser (BFL) is demonstrated using a piece of Photonic cryst...
We discuss the dramatic development of high-power fiber laser technology in recent years and the pro...
The output power of a narrow line-width laser is usually limited by the Stimulated Brillouin Scatter...
Thesis (Ph. D.)--University of Rochester. Institute of Optics, 2009.Single frequency laser sources a...
The performance of single-wavelength Brillouin fiber lasers (BFLs) is investigated for different gai...
An all-fiber amplifier for a single-frequency blue laser was demonstrated for the first time, to the...
The objective of this final year project was to design and build a single frequency 1-micron fiber l...
A numerical model is developed to simulate stimulated Brillouin scattering (SBS) in high power singl...
Stimulated Brillouin scattering (SBS) is a nonlinear phenomenon that occurs in a optical fiber as a ...
This book gives a contemporary overview of the technologies of single-frequency fiber lasers. The de...
A high-energy, single-frequency fiber laser with long pulse duration of 100 ns has been experimental...