High spectral resolution of GaAs/AlAs phononic cavities by subharmonic resonant pump-probe excitation

Abstract

We present here precise measurement of the resonance frequency, lifetime and shape of confined acoustic modes in the tens of GHz regime in GaAs/AlAs superlattice planar and micropillar cavities at low temperature ( 20\,K). The subharmonic resonant pump-probe technique, where the repetition rate of the pump laser is tuned to a subharmonic of the cavity resonance to maximize the amplitude of the acoustic resonance, in combination with a Sagnac interferometer technique for high sensitivity ( 10 \,fm) to the surface displacement, has been used. The cavity fundamental mode at 20\,GHz and the higher order cavity harmonics up to 180\,GHz have been clearly resolved. Mechanical Q-values up to 2.7 × 104 have been measured in a planar superlattice, and direct spatial mapping of confined acoustic modes in a superlattice cavity micropillar has been demonstrated. The Q-frequency product obtained is 5 × 1014 demonstrating the suitability of these superlattice cavities for optomechanical applications.