High resolution transient and permanent spectral hole burning in Ce3+:Y2SiO5 at liquid helium temperatures

Abstract

We perform hole burning with a low drift stabilized laser within the zero phonon line of the 4f-5d transition in Ce3+:Y2SiO5 at 2K. The narrowest spectral holes appear for small applied magnetic fields and are 64 MHz wide (FWHM). This puts an upper bound on the homogeneous linewidth of the transition to 32 MHz, which is close to lifetime limited. The spin level relaxation time is measured to 7221 ms with a magnetic field of 10 mT. A slow permanent hole burning mechanism is observed. If the excitation frequency is not changed the fluorescence intensity is reduced by more than 50\% after a couple of minutes of continuous excitation. The spectral hole created by the permanent hole burning has a width in the tens of MHz range, which indicates that a trapping mechanism occurs via the 5d-state.