Title :
Double-clad structures and proximity coupling for diode-bar-pumped planar waveguide lasers
Author :
Bonner, C.L. ; Bhutta, T. ; Shepherd, D.P. ; Tropper, A.C.
Author_Institution :
Optoelectron. Res. Centre, Southampton Univ., UK
Abstract :
We report, for the first time, fabrication of double-clad planar waveguide structures and their use for multiwatt, diode-bar-pumped, planar waveguide lasers based on Nd/sup 3+/ and Yb/sup 3+/-doped YAG. The direct-bonded, five-layer structures of sapphire, YAG, and rare-earth-doped YAG have sufficient numerical aperture to capture the fast-axis divergence of a diode bar by proximity coupling with no intervening optics, leading to very simple and compact devices. The restriction of the doped region to the central core leads to diffraction-limited laser output in the guided direction. We also show that the direct-bonding fabrication process can lead to a linearly polarized output.
Keywords :
laser beams; laser cavity resonators; laser modes; neodymium; optical couplers; optical fabrication; optical pumping; solid lasers; waveguide lasers; ytterbium compounds; Nd/sup 3+/:YAG; YAG; YAG:Nd; YAG:Yb; YAl5O12:Nd; YAl5O12:Yb; Yb/sup 3+/:YAG; central core; diffraction-limited laser output; diode bar; diode-bar-pumped planar waveguide lasers; direct-bonded five-layer structures; direct-bonding fabrication process; doped region; double-clad planar waveguide structures; double-clad structures; fabrication; fast-axis divergence; guided direction; linearly polarized output; multiwatt diode-bar-pumped planar waveguide laser; numerical aperture; proximity coupling; rare-earth-doped YAG; sapphire; simple compact devices; Apertures; Diodes; Neodymium; Optical coupling; Optical device fabrication; Optical devices; Optical planar waveguides; Optical waveguides; Planar waveguides; Waveguide lasers;
Journal_Title :
Quantum Electronics, IEEE Journal of
