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Paper detail

Modeling Pulse Characteristics in Xenon with NEST

A comprehensive model for describing the characteristics of pulsed signals, generated by particle interactions in xenon detectors, is presented. An emphasis is laid on two-phase time projection chambers, but the models presented are also applicable to single phase detectors. In order to simulate the pulse shape due to primary scintillation light, the effects of the ratio of singlet and triplet dimer state populations, as well as their corresponding decay times, and the recombination time are incorporated into the model. In a two phase time projection chamber, when simulating the pulse caused by electroluminescence light, the ionization electron mean free path in gas, the drift velocity, singlet and triplet decay times, diffusion constants, and the electron trapping time, have been implemented. This modeling has been incorporated into a complete software package, which realistically simulates the expected pulse shapes for these types of detectors.

preprint2014arXivOpen access
Jeremy MockNichole BarryKareem KazkazMatthew SzydagisMani TripathiSergey UvarovMichael WoodsNicholas Walsh
physics.ins-det
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Jeremy MockNichole BarryKareem KazkazMatthew SzydagisMani TripathiSergey UvarovMichael WoodsNicholas Walsh

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