1 research outputs found
Ultraviolet Random Laser Based on a Single GaN Microwire
Random
lasing (RL) from self-constructed localized cavities based
on micropits scatters in a single GaN microwire (MW) was investigated.
The spectra and spatial resolution of RL exhibits that the lasing
modes originated from different regions in the MW. Temperature-dependent
lasing measurement of GaN RL shows an excellent characteristic temperature
of about 52 K. In addition, the dependence of spatial localized cavities’
dimension on the pumping intensity profile and temperature was studied
by fast Fourier transform spectroscopy. For GaN RL, the optical feedback
was supported by localized paths through the scattering effect of
micropits in the MW. The scattering feedback mechanism for RL can
avoid the enormous difficulty in fabricating artificial cavity structures
for GaN. Hence, the results in this paper represent a low-cost technique
to realize GaN-based ultraviolet laser diodes without the fabrication
difficulty of cavity facets