Cait: analysis toolkit for cryogenic particle detectors in Python. Wagner, F., Bartolot, D., Rizvanovic, D., Reindl, F., Schieck, J., & Waltenberger, W. July, 2022. arXiv:2207.02187 [physics]![Cait: analysis toolkit for cryogenic particle detectors in Python [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper abstract bibtex Cryogenic solid state detectors are widely used in dark matter and neutrino experiments, and require a sensible raw data analysis. For this purpose, we present Cait, an open source Python package with all essential methods for the analysis of detector modules fully integrable with the Python ecosystem for scientific computing and machine learning. It comes with methods for triggering of events from continuously sampled streams, identification of particle recoils and artifacts in a low signalto-noise ratio environment, the reconstruction of deposited energies, and the simulation of a variety of typical event types. Furthermore, by connecting Cait with existing machine learning frameworks we introduce novel methods, for better automation in data cleaning and background rejection.
@misc{wagner_cait_2022,
title = {Cait: analysis toolkit for cryogenic particle detectors in {Python}},
shorttitle = {Cait},
url = {http://arxiv.org/abs/2207.02187},
abstract = {Cryogenic solid state detectors are widely used in dark matter and neutrino experiments, and require a sensible raw data analysis. For this purpose, we present Cait, an open source Python package with all essential methods for the analysis of detector modules fully integrable with the Python ecosystem for scientific computing and machine learning. It comes with methods for triggering of events from continuously sampled streams, identification of particle recoils and artifacts in a low signalto-noise ratio environment, the reconstruction of deposited energies, and the simulation of a variety of typical event types. Furthermore, by connecting Cait with existing machine learning frameworks we introduce novel methods, for better automation in data cleaning and background rejection.},
language = {en},
urldate = {2022-07-07},
publisher = {arXiv},
author = {Wagner, Felix and Bartolot, Daniel and Rizvanovic, Damir and Reindl, Florian and Schieck, Jochen and Waltenberger, Wolfgang},
month = jul,
year = {2022},
note = {arXiv:2207.02187 [physics]},
keywords = {Physics - Instrumentation and Detectors},
}
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