Title :
Surface-emitting tapered unstable resonator laser with integrated focusing grating coupler
Author :
Kristjánsson, Sigurgeir ; Eriksson, Niklas ; Modh, Peter ; Larsson, Anders
Author_Institution :
Microtechnol. Center at Chalmers & Photonics Lab., Chalmers Univ. of Technol., Goteborg, Sweden
Abstract :
We report on the fabrication and operation characteristics of a grating-based, surface-emitting, tapered unstable resonator laser with a trumpet shaped taper and a focusing outcoupler. The laser has a low threshold current density of 225 A/cm/sup 2/. It operates with a spatially coherent field and the near-field intensity indicates stable, filamentation free behavior up to at least 3/spl times/ the threshold current under continuous operation. At low drive currents the laser produces a nearly diffraction limited focused spot. With increasing current, the focused spot size increases and multiple side-lobes develop at high currents. We attribute this to a change in the phase of the emitted wavefront associated with thermal effects in the gain region.
Keywords :
current density; diffraction gratings; laser cavity resonators; laser stability; optical focusing; semiconductor optical amplifiers; surface emitting lasers; continuous operation; emitted wavefront; focused spot size; focusing outcoupler; gain region; grating-based surface-emitting tapered unstable resonator laser; high currents; integrated focusing grating coupler; low drive currents; low threshold current density; multiple side-lobes; near-field intensity; nearly diffraction limited focused spot; operation characteristics; spatially coherent field; stable filamentation free behavior; surface-emitting tapered unstable resonator laser; thermal effects; threshold current; trumpet shaped taper; Gratings; Laser feedback; Laser noise; Optical coupling; Optical resonators; Optical surface waves; Semiconductor lasers; Spatial coherence; Surface emitting lasers; Waveguide lasers;
Journal_Title :
Photonics Technology Letters, IEEE
