Phonon-bottlenecked spin relaxation of Er3+:CaWO4 at milliKelvin temperatures
Abstract
We study spin-lattice relaxation times of electron spins in Er3+:CaWO4 at millikelvin temperature, detected via their coupling to a low-mode volume superconducting resonator. At large magnetic field supporting strong phonon-emission rates, we observe a noticeable increase in relaxation times with increasing spin-excitations, which exhibit a unique [ ( ω0/kB T)]2 temperature dependence. These observations are typical of a phonon-bottlenecked spin relaxation, and have implications for quantum technologies that exploit rare-earth spin ensembles as coherent resources.
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