Whispering gallery quantum well exciton polaritons in an Indium Gallium Arsenide microdisk cavity

Despite appealing high-symmetry properties that enable high quality factor and strong confinement, whispering gallery modes of spherical and circular resonators have been absent from the field of quantum-well exciton polaritons. Here we observe whispering gallery exciton polaritons in a Gallium Arsenide microdisk cavity filled with Indium Gallium Arsenide quantum wells, the testbed materials of polaritonics. Strong coupling is evidenced in photoluminescence and resonant spectroscopy, accessed through concomitant confocal microscopy and near-field optical techniques. Excitonic and optical resonances are tuned by varying temperature and disk radius, revealing Rabi splittings between 5 and 10 meV. A dedicated analytical quantum model for such circular polaritons is developed, which reproduces the measured values. At high power, lasing is observed and accompanied by a blueshift of the emission that points to the regime of polariton lasing

Efficient optical coupling to gallium arsenide nano-waveguides and resonators with etched conical fibers

We explore new methods for coupling light to on-chip gallium arsenide nanophotonic structures using etched conical optical fibers. With a single-sided conical fiber taper, we demonstrate efficient coupling to an on-chip photonic bus waveguide in a liquid environment. We then show that it is possible to replace such on-chip bus waveguide by two joined conical fibers in order to directly couple light into a target whispering gallery disk resonator. This latter approach proves compliant with demanding environments, such as a vibrating pulse tube cryostat operating at low temperature, and it is demonstrated both in the telecom band and in the near infrared close to 900 nm of wavelength. The versatility, stability, and high coupling efficiency of this method are promising for quantum optics and sensing experiments in constrained environments, where obtaining high signal-to-noise ratio remains a challenge