Beam pointing stabilization of an acousto-optic modulator with thermal control

Abstract: Diffraction beams generated by an acousto-optic modulator (AOM) are widely used in various optical experiments, some of which require high angular stability with the temporal modulation of optical power. Usually, it is difficult to realize both angular stability and highpower modulation in a passive setup without a servo system of radio-frequency compensation.Here, we present a method to suppress the angular drift and pointing noise only with the thermal management of the AOM crystal. We analyze the dependence… Show more

“…Thermal effects in the AOMs impose limitations in the position stability of the dipole beams that in turn affect the trapping potentials. There have been several approaches in literature that try to mitigate this effect [126]. In our approach we used a single mode optical fiber (PM-780HP) in order to guide the beam to the science cell.…”

Precision engineering for ultra-cold atoms and space experiments

“…Thermal effects in the AOMs impose limitations in the position stability of the dipole beams that in turn affect the trapping potentials. There have been several approaches in literature that try to mitigate this effect [126]. In our approach we used a single mode optical fiber (PM-780HP) in order to guide the beam to the science cell.…”

Precision engineering for ultra-cold atoms and space experiments

A fiber-integrated and power-regulated single-sideband modualted Raman laser source for atom interferometry

Acousto-optic modulator based multi-operational logic circuit: design and analysis