Title :
Ultra-Low Quantum-Defect Heating in Ytterbium-Doped Aluminosilicate Fibers
Author :
Tianfu Yao ; Junhua Ji ; Nilsson, Johan
Author_Institution :
Optoelectron. Res. Centre, Univ. of Southampton, Southampton, UK
Abstract :
We theoretically investigate the quantum defect between pump and signal photons in ytterbium-doped fiber lasers and amplifiers, and find that this can be as low as 0.6%. We find that the lowest quantum defects can be achieved with a low area ratio between the pump and signal waveguide of a double-clad fiber, and with high-brightness pumping in the core being an ultimate approach. The change in achievable quantum defect is small over a relatively large range of pump wavelengths, but it is still necessary to optimize the wavelengths and match the fiber length to reach the smallest quantum defect.
Keywords :
aluminosilicate glasses; brightness; optical fibre amplifiers; optical fibre cladding; optical pumping; quantum optics; ytterbium; Al2O3-SiO2:Yb; area ratio; double-clad fiber; fiber length; high-brightness pumping; pump photon; pump waveguide; pump wavelengths; signal photon; signal waveguide; ultralow quantum-defect heating; ytterbium-doped aluminosilicate fibers; ytterbium-doped fiber amplifiers; ytterbium-doped fiber lasers; Absorption; Erbium-doped fiber lasers; Gain; Laser excitation; Optical fiber amplifiers; Optical fiber polarization; Pump lasers; Fiber lasers; rare earth doped fiber; thermal effects; ytterbium lasers;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2013.2290284
