Optical coherence of Er3+:Y2O3 ceramics for telecommunication quantum technologies

Abstract

We report an optical homogeneous linewidth of 580 20 Hz of Er3+:Y2O3 ceramics at millikelvin temperatures, narrowest so far in rare-earth doped ceramics. We show slow spectral diffusion of 2 kHz over a millisecond time scale. Temperature, field dependence of optical coherence and spectral diffusions reveal the remaining dephasing mechanism as elastic two-level systems in polycrystalline grain boundaries and superhyperfine interactions of Er3+ with nuclear spins. In addition, we perform spectral holeburning and measure up to 5 s hole lifetimes. These spectroscopic results put Er3+:Y2O3 ceramics as a promising candidate for telecommunication quantum memories and light-matter interfaces.