Low temperature microwave study of photoconductivity in rare-earth-doped dielectric crystals

Abstract Transient photoconductivity induced by UV (355 nm) laser pulses in doped dielectric crystals CaF 2 :Sm 2+ , CaF 2 :Eu 2+ and LSO:Ce 3+ was studied by 8-mm microwave technique in a wide range of temperatures, from 300 K down to 5 K. It was possible to study the dynamics of free and bound photoexcited electrons. In LSO:Ce 3+ , the thermally-activated photoionization process at room temperature changes to a two-step photoionization at liquid helium temperature. In CaF 2 :Eu 2+ , two-step photoionization was detected at any temperature and electronic traps cause broadening of the photoconductivity signal at low temperature. In CaF 2 :Sm 2+ , the one-step photoionization process was confirmed at any temperature.