Publication: Molecular dynamics simulations of bubble nucleation in dark matter detectors
Molecular dynamics simulations of bubble nucleation in dark matter detectors
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Denzel, P., Diemand, J., & Angélil, R. (2016). Molecular dynamics simulations of bubble nucleation in dark matter detectors. Physical Review. E, 93(1), 013301. https://doi.org/10.1103/PhysRevE.93.013301
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Bubble chambers and droplet detectors used in dosimetry and dark matter particle search experiments use a superheated metastable liquid in which nuclear recoils trigger bubble nucleation. This process is described by the classical heat spike model of F. Seitz [Phys. Fluids (1958-1988) 1, 2 (1958)PFLDAS0031-917110.1063/1.1724333], which uses classical nucleation theory to estimate the amount and the localization of the deposited energy required for bubble formation. Here we report on direct molecular dynamics simulations of heat-spike-
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- Denzel, Philipp
- Diemand, Jürg
- Angélil, Raymond
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Denzel, P., Diemand, J., & Angélil, R. (2016). Molecular dynamics simulations of bubble nucleation in dark matter detectors. Physical Review. E, 93(1), 013301. https://doi.org/10.1103/PhysRevE.93.013301
