Cluster ions in gas-based detectors
Date
2015-07-01
Journal Title
Journal ISSN
Volume Title
Publisher
IOP Publishing
Abstract
Avalanches in gas-based detectors operating at atmospheric pressure and using Ar-CO2 or Ne-CO2 as drift medium produce in a first instance mainly Ar+, Ne+ and CO2+ ions. The noble gas ions transfer their charge to CO2 in a few ns. A few ns later, the CO2+ ions have picked up CO2 molecules, forming cluster ions, in particular CO2+ center dot (CO2)(n). Since the cluster ions are slower than the initial ions, the signals induced by ion motion are altered. The effect is shown to be present in constant-field detectors and TPC readout chambers, and is expected to affect devices such as Micromegas and drift tubes.
Description
Keywords
Argon, Atmospheric pressure, Ionization of gases, Neon, Cluster ions, Drift tube, Ion motions, Micromegas, Noble gas ions, Readout chambers, Ions, Charge transport and multiplication in gas, Particle tracking detectors (Gaseous detectors), Wide energy-range, Positive-ions, Carbon-dioxide, Transport-properties, Molecule reactions, Alkali ions, Planetary-atmospheres, Mobility spectrometry, Interstellar clouds, Drift velocities, Instruments & Instrumentation
Citation
Kalkan, Y. vd. (2015). "Cluster ions in gas-based detectors". Journal of Instrumentation, 10(7)