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Study of nonlinear relationship between position and drift time in cylindrical-type drift chamber and use of backgammon-shaped cathode pads

A cylindrical-type drift chamber consists of an appropriate array of cylindrical single wire proportional counters and has a simple structure. It is shown that a quadratic function reproduced the space-time relationship in the cylindrical-type drift chamber filled with PR gas (Argon:Methane = 90:10)... Full description

Journal Title: IEEE Transactions on Nuclear Science Oct, 2001, Vol.48(5), p.1672(1)
Main Author: Tenzou, Hideki
Other Authors: Tanaka, Hiroki , Ishimoto, Shunsuke , Iwamoto, Yousuke , Satoh, Daiki , Furuta, Mitunori , Ishibashi, Kenji , Maehata, Keisuke , Matsumoto, Yuzuru , Nakamoto, Tatushi , Numajiri, Masaharu
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ID: ISSN: 0018-9499
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recordid: gale_ofa80013354
title: Study of nonlinear relationship between position and drift time in cylindrical-type drift chamber and use of backgammon-shaped cathode pads
format: Article
creator:
  • Tenzou, Hideki
  • Tanaka, Hiroki
  • Ishimoto, Shunsuke
  • Iwamoto, Yousuke
  • Satoh, Daiki
  • Furuta, Mitunori
  • Ishibashi, Kenji
  • Maehata, Keisuke
  • Matsumoto, Yuzuru
  • Nakamoto, Tatushi
  • Numajiri, Masaharu
subjects:
  • Nuclear Engineering -- Research
ispartof: IEEE Transactions on Nuclear Science, Oct, 2001, Vol.48(5), p.1672(1)
description: A cylindrical-type drift chamber consists of an appropriate array of cylindrical single wire proportional counters and has a simple structure. It is shown that a quadratic function reproduced the space-time relationship in the cylindrical-type drift chamber filled with PR gas (Argon:Methane = 90:10). The difference in the drift times in pair-cells is simply converted into the incident position of charged particles perpendicular to the anode wire using the quadratic function of the space-time relationship. Furthermore, the quadratic function improves the position resolution. A backgammon pattern is employed for the cathode pad of the cylindrical drift chamber. The cylindrical drift cell with a backgammon-shaped cathode pad gives the position resolution along the anode wire. The position resolution in one sigma along the anode wire is obtained to be 1.7 mm on average. The cylindrical-type drift chamber with backgammon-shaped cathode pad may be applied to a two-dimensional position sensitive detector with a compact structure and simple signal-processing electronics. Index Terms--Backgammon, charge division, cylindrical drift chamber.
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identifier: ISSN: 0018-9499
fulltext: fulltext
issn:
  • 0018-9499
  • 00189499
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titleStudy of nonlinear relationship between position and drift time in cylindrical-type drift chamber and use of backgammon-shaped cathode pads
creatorTenzou, Hideki ; Tanaka, Hiroki ; Ishimoto, Shunsuke ; Iwamoto, Yousuke ; Satoh, Daiki ; Furuta, Mitunori ; Ishibashi, Kenji ; Maehata, Keisuke ; Matsumoto, Yuzuru ; Nakamoto, Tatushi ; Numajiri, Masaharu
ispartofIEEE Transactions on Nuclear Science, Oct, 2001, Vol.48(5), p.1672(1)
identifierISSN: 0018-9499
subjectNuclear Engineering -- Research
descriptionA cylindrical-type drift chamber consists of an appropriate array of cylindrical single wire proportional counters and has a simple structure. It is shown that a quadratic function reproduced the space-time relationship in the cylindrical-type drift chamber filled with PR gas (Argon:Methane = 90:10). The difference in the drift times in pair-cells is simply converted into the incident position of charged particles perpendicular to the anode wire using the quadratic function of the space-time relationship. Furthermore, the quadratic function improves the position resolution. A backgammon pattern is employed for the cathode pad of the cylindrical drift chamber. The cylindrical drift cell with a backgammon-shaped cathode pad gives the position resolution along the anode wire. The position resolution in one sigma along the anode wire is obtained to be 1.7 mm on average. The cylindrical-type drift chamber with backgammon-shaped cathode pad may be applied to a two-dimensional position sensitive detector with a compact structure and simple signal-processing electronics. Index Terms--Backgammon, charge division, cylindrical drift chamber.
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titleStudy of nonlinear relationship between position and drift time in cylindrical-type drift chamber and use of backgammon-shaped cathode pads.
descriptionA cylindrical-type drift chamber consists of an appropriate array of cylindrical single wire proportional counters and has a simple structure. It is shown that a quadratic function reproduced the space-time relationship in the cylindrical-type drift chamber filled with PR gas (Argon:Methane = 90:10). The difference in the drift times in pair-cells is simply converted into the incident position of charged particles perpendicular to the anode wire using the quadratic function of the space-time relationship. Furthermore, the quadratic function improves the position resolution. A backgammon pattern is employed for the cathode pad of the cylindrical drift chamber. The cylindrical drift cell with a backgammon-shaped cathode pad gives the position resolution along the anode wire. The position resolution in one sigma along the anode wire is obtained to be 1.7 mm on average. The cylindrical-type drift chamber with backgammon-shaped cathode pad may be applied to a two-dimensional position sensitive detector with a compact structure and simple signal-processing electronics. Index Terms--Backgammon, charge division, cylindrical drift chamber.
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titleStudy of nonlinear relationship between position and drift time in cylindrical-type drift chamber and use of backgammon-shaped cathode pads.
authorTenzou, Hideki ; Tanaka, Hiroki ; Ishimoto, Shunsuke ; Iwamoto, Yousuke ; Satoh, Daiki ; Furuta, Mitunori ; Ishibashi, Kenji ; Maehata, Keisuke ; Matsumoto, Yuzuru ; Nakamoto, Tatushi ; Numajiri, Masaharu
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atitleStudy of nonlinear relationship between position and drift time in cylindrical-type drift chamber and use of backgammon-shaped cathode pads.
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abstractA cylindrical-type drift chamber consists of an appropriate array of cylindrical single wire proportional counters and has a simple structure. It is shown that a quadratic function reproduced the space-time relationship in the cylindrical-type drift chamber filled with PR gas (Argon:Methane = 90:10). The difference in the drift times in pair-cells is simply converted into the incident position of charged particles perpendicular to the anode wire using the quadratic function of the space-time relationship. Furthermore, the quadratic function improves the position resolution. A backgammon pattern is employed for the cathode pad of the cylindrical drift chamber. The cylindrical drift cell with a backgammon-shaped cathode pad gives the position resolution along the anode wire. The position resolution in one sigma along the anode wire is obtained to be 1.7 mm on average. The cylindrical-type drift chamber with backgammon-shaped cathode pad may be applied to a two-dimensional position sensitive detector with a compact structure and simple signal-processing electronics. Index Terms--Backgammon, charge division, cylindrical drift chamber.
pubInstitute of Electrical and Electronics Engineers, Inc.
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pages1672-1678
doi10.1109/23.960355
eissn15581578
date2001-10-01