Add to ORKGWe present a model to calculate heat signal shapes from low-temperature bolometer attached to a crystal. This model is based on the elementary acoustic wave theory at low temperature and has been developed using modern Monte Carlo techniques. Physical processes in phonon propagation, such as transmission, scattering and reflection are considered. Using our model, the calculated time dependence of signal agrees with real experimental data. This model has applications in low-temperature rare event particle detectors for dark matter and neutrinos. © 2018 Springer Science+Business Media, LLC, part of Springer Nature 201
AbstractIn this paper, we proposed an approach for analyzing uncooled infrared bolometer detector. T...
Abstract. We describe a new model of massless thermal bosons which predicts an hyperbolic fluctuatio...
We have developed a cryogenic heat and light detection system to investigate phonon and scintillatio...
International audienceWe present three Monte Carlo models for the propagation of athermal phonons in...
Heat pulse experiments have been made on Al₂O₃ single crystals in the temperature range 3.8° K to 35...
We present data on a detector composed of an 18 g Si crystal and a superconducting phase transition ...
International audienceInorganic crystal scintillators play a crucial role in particle detection for ...
We are developing a new class of elementary particle detectors capable of sensing weakly interacting...
© 2019 We have developed a compact cryogenic measurement system to investigate the phonon and scinti...
A general review of experimental heat pulse techniques with interpretations of some typical data is ...
Abstract: In this paper how the specific heat of a substance ( Crystalline Solids/metal Alloys/cryst...
Bolometric detectors are used in particle physics experiments to search for rare processes, such as ...
Phononic crystal (PnC) membranes are a promising solution to improve sensitivity of bolometric sens...
Bolometers are very low temperature detectors which measure a deposited energy by the resulting ther...
International audienceThe scintillation properties of luminescent crystals are well known at room te...
AbstractIn this paper, we proposed an approach for analyzing uncooled infrared bolometer detector. T...
Abstract. We describe a new model of massless thermal bosons which predicts an hyperbolic fluctuatio...
We have developed a cryogenic heat and light detection system to investigate phonon and scintillatio...
International audienceWe present three Monte Carlo models for the propagation of athermal phonons in...
Heat pulse experiments have been made on Al₂O₃ single crystals in the temperature range 3.8° K to 35...
We present data on a detector composed of an 18 g Si crystal and a superconducting phase transition ...
International audienceInorganic crystal scintillators play a crucial role in particle detection for ...
We are developing a new class of elementary particle detectors capable of sensing weakly interacting...
© 2019 We have developed a compact cryogenic measurement system to investigate the phonon and scinti...
A general review of experimental heat pulse techniques with interpretations of some typical data is ...
Abstract: In this paper how the specific heat of a substance ( Crystalline Solids/metal Alloys/cryst...
Bolometric detectors are used in particle physics experiments to search for rare processes, such as ...
Phononic crystal (PnC) membranes are a promising solution to improve sensitivity of bolometric sens...
Bolometers are very low temperature detectors which measure a deposited energy by the resulting ther...
International audienceThe scintillation properties of luminescent crystals are well known at room te...
AbstractIn this paper, we proposed an approach for analyzing uncooled infrared bolometer detector. T...
Abstract. We describe a new model of massless thermal bosons which predicts an hyperbolic fluctuatio...
We have developed a cryogenic heat and light detection system to investigate phonon and scintillatio...