Characterization of Czochralski silicon detectors

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Doctoral thesis (article-based)
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Date
2006-05-26
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Degree programme
Language
en
Pages
44, [35]
Series
Internal report / Helsinki Institute of Physics, 2006-04
Abstract
This thesis describes the characterization of irradiated and non-irradiated segmented detectors made of high-resistivity (>1 kΩcm) magnetic Czochralski (MCZ) silicon. It is shown that the radiation hardness (RH) of the protons of these detectors is higher than that of devices made of traditional materials such as Float Zone (FZ) silicon or Diffusion Oxygenated Float Zone (DOFZ) silicon due to the presence of intrinsic oxygen (> 5 × 1017 cm−3). The MCZ devices therefore present an interesting alternative for future high-energy physics experiments. In the large hadron collider (LHC), the RH of the detectors is a critical issue due to the high luminosity (1034 cm−2s−1) corresponding to the expected total fluencies of fast hadrons above 1015 cm−2. This RH improvement is important since radiation damage in the detector bulk material reduces the detector performance and because some of the devices produced from standard detector-grade silicon, e.g. FZ silicon with negligible oxygen concentration, might not survive the planned operational period of the LHC experiments. In this work, segmented detectors and test structures were processed, measured, irradiated with different particles (protons of different energies, neutrons and high-energy electrons) and tested with a 60Co gamma source and with high-energy muon and pion beams. The electrical characterizations show that, for proton irradiation, the MCZ silicon is significantly radiation harder than traditionally used detector materials. In gamma irradiation, MCZ silicon detectors behave similarly to the DOFZ silicon detectors. For neutron radiation, there is only a small difference between MCZ silicon and the reference devices made of standard FZ silicon. The beam test results with the full-size detectors show that the properties of the high-resistivity MCZ silicon are suitable for particle detection both before and after heavy proton irradiation.
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Keywords
silicon particle detectors, full size detectors, radiation hardness, Czochralski silicon, material engineering
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Parts
  • E. Tuominen, K. Banzuzi, S. Czellar, A. Heikkinen, J. Härkönen, P. Johansson, V. Karimäki, P. Luukka, P. Mehtälä, J. Niku, S. Nummela, J. Nysten, J. Simpura, E. Tuovinen, J. Tuominiemi, D. Ungaro, T. Vaarala, L. Wendland, M. Voutilainen and A. Zibellini, Test beam results of a large area strip detector made on high resistivity Czochralski silicon, Nuclear Physics B - Proceedings Supplements 125 (2003) 175-178.
  • P. Luukka, J. Härkönen, E. Tuovinen, E. Tuominen, K. Lassila-Perini, P. Mehtälä, S. Nummela, J. Nysten, D. Ungaro, A. Zibellini, P. Laitinen, I. Riihimäki, A. Virtanen, A. Furgeri and F. Hartmann, Results of proton irradiations of large area strip detectors made on high-resistivity Czochralski silicon, Nuclear Instruments and Methods in Physics Research A 530 (2004) 117-121.
  • P. Luukka on behalf of the CERN RD50 Collaboration, Status of defect engineering activity of the RD50 collaboration, Nuclear Instruments and Methods in Physics Research A 530 (2004) 152-157.
  • P. Luukka, T. Lampén, L. A. Wendland, S. Czellar, E. Hæggström, J. Härkönen, V. Karimäki, I. Kassamakov, T. Mäenpää, J. Tuominiemi and E. Tuovinen, Test beam results of a proton irradiated Czochralski silicon strip detector, Nuclear Instruments and Methods in Physics Research A, accepted for publication.
  • Z. Li, J. Harkonen, W. Chen, J. Kierstead, P. Luukka, E. Tuominen, E. Tuovinen, E. Verbitskaya and V. Eremin, Radiation hardness of high resistivity magnetic Czochralski silicon detectors after gamma, neutron, and proton radiations, IEEE Transactions on Nuclear Science 51 (4) (2004) 1901-1908.
  • J. Härkönen, E. Tuovinen, P. Luukka, E. Tuominen, Z. Li, A. Ivanov, E. Verbitskaya, V. Eremin, A. Pirojenko, I. Riihimäki and A. Virtanen, Particle detectors made of high-resistivity Czochralski silicon, Nuclear Instruments and Methods in Physics Research A 541 (2005) 202-207.
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Permanent link to this item
https://urn.fi/urn:nbn:fi:tkk-006937