Ultrahigh-Q toroidal microresonators for cavity quantum electrodynamics
نویسندگان
چکیده
We investigate the suitability of toroidal microcavities for strong-coupling cavity quantum electrodynamics sQEDd. Numerical modeling of the optical modes demonstrate a significant reduction of the modal volume with respect to the whispering gallery modes of dielectric spheres, while retaining the high-quality factors representative of spherical cavities. The extra degree of freedom of toroid microcavities can be used to achieve improved cavity QED characteristics. Numerical results for atom-cavity coupling strength g, critical atom number N0, and critical photon number n0 for cesium are calculated and shown to exceed values currently possible using Fabry-Perot cavities. Modeling predicts coupling rates g /2p exceeding 700 MHz and critical atom numbers approaching 10−7 in optimized structures. Furthermore, preliminary experimental measurements of toroidal cavities at a wavelength of 852 nm indicate that quality factors in excess of 108 can be obtained in a 50-mm principal diameter cavity, which would result in strong-coupling values of (g / s2pd ,n0 ,N0) = s86 MHz,4.6310−4 ,1.0310−3d.
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