On the physics and technology of gaseous particle detectors

P. Fonte; V. Peskov

arXiv:0909.2681·physics.ins-det·May 14, 2015

On the physics and technology of gaseous particle detectors

P. Fonte, V. Peskov

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TL;DR

Gaseous particle detectors are crucial in physics and radiation detection, with ongoing technological developments and unresolved physics challenges that impact their effectiveness in experiments.

Contribution

The paper reviews main technologies, applications, and unresolved physics issues in gaseous particle detectors, highlighting areas for future research.

Findings

01

Gaseous detectors are vital in high-energy physics and radiation detection.

02

Several key technologies and applications are summarized.

03

Unsolved physics problems affect detector performance.

Abstract

Despite an already long and fruitful history, gaseous elementary-particle detectors remain today an important mainstay of high-energy and nuclear physics experiments and of radiation detection in general. In here we briefly describe some of the gaseous detector's main technologies and applications, along with some unsolved gas-discharge physics aspects of practical relevance.

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