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Development of Si-based detectors for intermediate energy heavy-ion physics at a storage-ring accelerator

Abstract

Ultrahigh vacuum (UHV) compatible Si detectors are being developed by the CELSIUS Heavy lon Collaboration (CHIC) for measuring the energy and identity of Intermediate Mass Fragments (IMF) with Z {approx} 3 - 12 and energies of 0.7 - I 0 A MeV. Here we give an overview of the development of Si {delta}E-E detector telescopes and investigations on IMF identification based on the pulse shape from Si-detectors where the particles impinge on the rear-face of the detector. 9 refs., 4 figs.
Authors:
Whitlow, H J; Jaworowski, J; Leandersson, M; El Bouanani, M; [1]  Jakobsson, B; [2]  Romanski, J; Westerberg, L; Van Veldhuizen, E J; [3]  The Chicsi Collaboration
  1. Lund Institute of Technology, Solvegatan Lund, (Sweden). Department of Nuclear Physics
  2. Lund Univ. (Sweden). Dept. of Cosmic and Subatomic Physics
  3. Uppsala Univ. (Sweden)
Publication Date:
Dec 31, 1996
Product Type:
Miscellaneous
Report Number:
INIS-AU-0003; CONF-9511295-
Reference Number:
SCA: 440103; 663450; PA: AIX-28:057415; EDB-97:120201; SN: 97001841641
Resource Relation:
Conference: 9. Australian conference on nuclear technique of analysis, Newcastle (Australia), 27-29 Nov 1995; Other Information: PBD: [1996]; Related Information: Is Part Of 9th Australian conference on nuclear techniques of analysis. Proceedings; PB: 186 p.
Subject:
44 INSTRUMENTATION, INCLUDING NUCLEAR AND PARTICLE DETECTORS; 66 PHYSICS; CELSIUS STORAGE RING; HEAVY ION REACTIONS; ION SPECTROSCOPY; NUCLEAR FRAGMENTATION; SI SEMICONDUCTOR DETECTORS; EFFECTIVE CHARGE; ENERGY RESOLUTION; ENERGY SPECTRA; EXPERIMENTAL DATA; HEAVY ION SPECTROMETERS; INTERMEDIATE MASS NUCLEI; PULSE SHAPERS; TELESCOPE COUNTERS; ULTRAHIGH VACUUM; UPPSALA SYNCHROCYCLOTRON
OSTI ID:
520543
Research Organizations:
Australian Inst. of Nuclear Science and Engineering, Lucas Heights, NSW (Australia)
Country of Origin:
Australia
Language:
English
Other Identifying Numbers:
Other: ON: DE97638268; TRN: AU9716141057415
Availability:
INIS; OSTI as DE97638268
Submitting Site:
AUN
Size:
pp. 2-4
Announcement Date:

Citation Formats

Whitlow, H J, Jaworowski, J, Leandersson, M, El Bouanani, M, Jakobsson, B, Romanski, J, Westerberg, L, Van Veldhuizen, E J, and The Chicsi Collaboration. Development of Si-based detectors for intermediate energy heavy-ion physics at a storage-ring accelerator. Australia: N. p., 1996. Web.
Whitlow, H J, Jaworowski, J, Leandersson, M, El Bouanani, M, Jakobsson, B, Romanski, J, Westerberg, L, Van Veldhuizen, E J, & The Chicsi Collaboration. Development of Si-based detectors for intermediate energy heavy-ion physics at a storage-ring accelerator. Australia.
Whitlow, H J, Jaworowski, J, Leandersson, M, El Bouanani, M, Jakobsson, B, Romanski, J, Westerberg, L, Van Veldhuizen, E J, and The Chicsi Collaboration. 1996. "Development of Si-based detectors for intermediate energy heavy-ion physics at a storage-ring accelerator." Australia.
@misc{etde_520543,
title = {Development of Si-based detectors for intermediate energy heavy-ion physics at a storage-ring accelerator}
author = {Whitlow, H J, Jaworowski, J, Leandersson, M, El Bouanani, M, Jakobsson, B, Romanski, J, Westerberg, L, Van Veldhuizen, E J, and The Chicsi Collaboration}
abstractNote = {Ultrahigh vacuum (UHV) compatible Si detectors are being developed by the CELSIUS Heavy lon Collaboration (CHIC) for measuring the energy and identity of Intermediate Mass Fragments (IMF) with Z {approx} 3 - 12 and energies of 0.7 - I 0 A MeV. Here we give an overview of the development of Si {delta}E-E detector telescopes and investigations on IMF identification based on the pulse shape from Si-detectors where the particles impinge on the rear-face of the detector. 9 refs., 4 figs.}
place = {Australia}
year = {1996}
month = {Dec}
}