Ultrasound velocity in neutron‐irradiated quartz crystals above 5 K

Abstract: A linear temperature dependence of the sound velocity above 5 K is a universal property for amorphous and disordered solids. However, there are several theoretical models, which propose the explaination of this universal behaviour at intermediate temperatures. Previous low-temperature measurements have shown that the neutron-irradiated quartz can be used for the study of the glassy dynamics. In this paper we present the results of the ultrasound velocity measurements in neutron-irradiated quartz crystals at te… Show more

“…This is much higher than expected from the change in v s or , as discussed above. From neutron irradiation it is known, that the change of v s with T depends strongly on the quality of the crystal, the rate of change increases linearly with the defect density [ 24 – 25 28 ]. Because the quartz resonators studied in this work are not from the same wafer and manufacturer, one might argue that the differences in ∂ ε/ ∂T can be caused by different crystal quality and material processing.…”

Impact of thermal frequency drift on highest precision force microscopy using quartz-based force sensors at low temperatures

“…This is much higher than expected from the change in v s or , as discussed above. From neutron irradiation it is known, that the change of v s with T depends strongly on the quality of the crystal, the rate of change increases linearly with the defect density [ 24 – 25 28 ]. Because the quartz resonators studied in this work are not from the same wafer and manufacturer, one might argue that the differences in ∂ ε/ ∂T can be caused by different crystal quality and material processing.…”

Impact of thermal frequency drift on highest precision force microscopy using quartz-based force sensors at low temperatures