Optical coherence and relaxation dynamics in a thulium-doped yttrium gallium garnet crystal for quantum memory applications

Rare-earth ion-doped crystals with a long optical coherence lifetime are of great interest to serve as solid-state multimode quantum memories in frequency-multiplexed quantum repeater architectures. Towards this end, spectroscopic investigation on yttrium gallium garnet -YGG crystal cooled to 500 mK and doped with 1% Tm³⁺ is presented. At low magnetic fields (a few hundreds of Gauss), this crystal offers an optical coherence lifetime exceeding one millisecond and ground-state Zeeman level lifetime as long as tens of seconds. Furthermore, we characterize and model the time evolution of spectral holes at different magnetic fields for various temperatures in the view of spectral diffusion which is crucial to understand in order to build an efficient long-lived quantum memory.