Signal Formation in Various Detectors
Manolis Dris, Theo Alexopoulos
TL;DR
This paper presents a comprehensive and accessible theory of signal formation in various detectors, with practical applications to gaseous detectors like MDT and Micromegas, aiding understanding and design.
Contribution
It provides a unified, pedagogical framework for understanding signal formation across different detector types, including specific applications to gaseous detectors.
Findings
Developed a general theory applicable to various detectors.
Applied theory to gaseous detectors such as MDT and Micromegas.
Enhanced understanding of signal formation processes.
Abstract
In this write-up we present the general theory of the signal formation in various detectors. We follow a pedagogical analysis and presentation such that the results could be easily understood and applied by the interested reader to the different detector configurations. We include few applications to gaseous detectors, namely, Monitored Drift Tubes (MDT) and micro-pattern gaseous detectors of the Micromegas type.
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Taxonomy
TopicsPlasma Diagnostics and Applications · Quantum and Classical Electrodynamics · Scientific Research and Discoveries