2-D straw detectors with high rate capability

N.A. Kuchinskiy; V.A. Baranov; V.N. Duginov; F.E. Zyazyulya; A.S.; Korenchenko; A.O. Kolesnikov; N.P. Kravchuk; S.A. Movchan; A.I. Rudenko; V.S.; Smirnov; N.V. Khomutov; V.A. Chekhovsky; A.S. Lobko; O.V. Misevich

arXiv:1502.05363·physics.ins-det·February 19, 2015

2-D straw detectors with high rate capability

N.A. Kuchinskiy, V.A. Baranov, V.N. Duginov, F.E. Zyazyulya, A.S., Korenchenko, A.O. Kolesnikov, N.P. Kravchuk, S.A. Movchan, A.I. Rudenko, V.S., Smirnov, N.V. Khomutov, V.A. Chekhovsky, A.S. Lobko, O.V. Misevich

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TL;DR

This paper presents a novel 2-D straw detector design that achieves precise axial coordinate measurement and enhances rate capability by utilizing straw cathode readout instead of traditional anode readout.

Contribution

It introduces a new 2-D straw detector method combining axial and radial coordinate measurements with improved rate performance.

Findings

01

Achieved accurate axial coordinate measurement.

02

Demonstrated increased rate capability with straw cathode readout.

03

Validated the detector's performance through experimental results.

Abstract

Precise measurement of straw axial coordinate (along the anode wire) with accuracy compatible with straw radial coordinate determination by drift time measurement and increase of straw detector rate capability by using straw cathode readout instead of anode readout are presented.

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Taxonomy

TopicsChemical and Physical Properties of Materials · Plasma Diagnostics and Applications · Ion-surface interactions and analysis