Low temperature thermal properties of crystalline quartz after electron irradiation

“…For the ADR, the salt cools in parallel with the stages, so the entropy provides the best assessment of the remaining cooling energy once the stage reaches the target temperature. We calculate specific heats for: (1) copper; 130 (2) blackening, 79 which is composed of SiO 2 , 131,132 EpoTek 377 (scaled from Stycast 1266 133 based on material measurements), and graphite; 134 (3) brass 135 for fasteners; (4) NbTi 136 for coaxial cable lines; (5) nickel 137 for magnetic material in the isolators; and (6) stainless steel 138 for RF hardware.…”

Experiment for cryogenic large-aperture intensity mapping: instrument design

“…For the ADR, the salt cools in parallel with the stages, so the entropy provides the best assessment of the remaining cooling energy once the stage reaches the target temperature. We calculate specific heats for: (1) copper; 130 (2) blackening, 79 which is composed of SiO 2 , 131,132 EpoTek 377 (scaled from Stycast 1266 133 based on material measurements), and graphite; 134 (3) brass 135 for fasteners; (4) NbTi 136 for coaxial cable lines; (5) nickel 137 for magnetic material in the isolators; and (6) stainless steel 138 for RF hardware.…”

Experiment for cryogenic large-aperture intensity mapping: instrument design

Investigation of the “Glassy” Properties of Neutron and Electron Irradiated Crystalline Quartz Related to the Anomalous Low Temperature Dynamics of Non-Crystalline Solids

Thermal and Acoustic Experiments in Low Temperature Glasses