Stimulated emission and lasing in whispering-gallery modes of GaN microdisk cavities
- 12 July 1999
- journal article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 75 (2), 166-168
- https://doi.org/10.1063/1.124307
Abstract
We report optically pumped, pulsed lasing action in whispering-gallery modes of GaN microdisk cavities at room temperature. The microdisk structure was fabricated by reactive-ion etching a 2-μm-thick GaN epitaxial layer grown via metalorganic chemical vapor deposition. Below the lasing threshold, stimulated emission with superlinear pump-intensity dependence is observed. Spontaneous-to-stimulated emission transition occurs at a pump intensity that is 10× lower than that for a GaN sample without a cavity structure. Above the lasing threshold, the pump-intensity dependence is almost linear and gain pinning is observed. In addition, whispering-gallery modes are observed with the linewidth of individual peaks being as narrow as 0.1 nm.Keywords
This publication has 16 references indexed in Scilit:
- Threshold reduction in pierced microdisk lasersApplied Physics Letters, 1999
- High-Power Directional Emission from Microlasers with Chaotic ResonatorsScience, 1998
- Gain spectra and stimulated emission in epitaxial (In,Al) GaN thin filmsApplied Physics Letters, 1996
- Optical gain in GaInN/GaN heterostructuresApplied Physics Letters, 1996
- Photonic-Wire LaserPhysical Review Letters, 1995
- Above room temperature near ultraviolet lasing from an optically pumped GaN film grown on sapphireApplied Physics Letters, 1995
- Whispering-gallery mode microdisk lasersApplied Physics Letters, 1992
- Vertical-cavity, room-temperature stimulated emission from photopumped GaN films deposited over sapphire substrates using low-pressure metalorganic chemical vapor depositionApplied Physics Letters, 1991
- Stimulated Emission Near Ultraviolet at Room Temperature from a GaN Film Grown on Sapphire by MOVPE Using an AlN Buffer LayerJapanese Journal of Applied Physics, 1990
- Stimulated Emission and Laser Action in Gallium NitrideApplied Physics Letters, 1971