Study of neutron irradiated silicon counters with a fast amplifier
Identifieur interne : 001379 ( Istex/Corpus ); précédent : 001378; suivant : 001380Study of neutron irradiated silicon counters with a fast amplifier
Auteurs : S. Bates ; D. J. Munday ; M. A. Parker ; F. Anghinolfi ; A. Chilingarov ; A. Ciasnohova ; M. Glaser ; P. Jarron ; F. Lemeilleur ; J. C. Santiard ; C. Gö Ling ; B. Lisowski ; S. Pilath ; A. Rolf ; R. Bonino ; A. G. Clark ; H. Kambara ; X. Wu ; E. Fretwurst ; G. Lindström ; T. Schulz ; G. F. Moorhead ; G. N. Taylor ; S. N. Tovey ; R. Hawkings ; A. Weidberg ; J. TeigerSource :
- Nuclear Inst. and Methods in Physics Research, A [ 0168-9002 ] ; 1993.
English descriptors
- KwdEn :
- Ambient temperature, Amplifier input, Bias voltage, Bias voltages, Bipoltest preamplifier, Calibration signal, Capacitance, Capacitive load, Charge carriers, Collection time, Current pulse, Depletion voltage, Detector, Detector element, Digital oscilloscope, Diode, Drift velocity, Electric field, Electron binding, Electronic noise, Experimental setup, Gate width, Gaussian smearing, Horizontal scale, Individual channels, Integration time, Landau, Landau distribution, Landau spectra, Largest amplitude, Measurement temperature, Neutron, Nucl instr, Nucl phys, Nuclear physics, Output signal, Pointlike charge, Preamplifier, Preamplifier input, Probable energy deposition, Pulse generator, Radiation damage, Room temperature, Scintillator counter coincidence, Semiconductor diode, Sensitive area, Shot noise, Silicon, Silicon detector, Silicon detectors, Silicon tracker, Space charge, Statistical errors, Total charge, Total collection time, Ubias.
- Teeft :
- Ambient temperature, Amplifier input, Bias voltage, Bias voltages, Bipoltest preamplifier, Calibration signal, Capacitance, Capacitive load, Charge carriers, Collection time, Current pulse, Depletion voltage, Detector, Detector element, Digital oscilloscope, Diode, Drift velocity, Electric field, Electron binding, Electronic noise, Experimental setup, Gate width, Gaussian smearing, Horizontal scale, Individual channels, Integration time, Landau, Landau distribution, Landau spectra, Largest amplitude, Measurement temperature, Neutron, Nucl instr, Nucl phys, Nuclear physics, Output signal, Pointlike charge, Preamplifier, Preamplifier input, Probable energy deposition, Pulse generator, Radiation damage, Room temperature, Scintillator counter coincidence, Semiconductor diode, Sensitive area, Shot noise, Silicon, Silicon detector, Silicon detectors, Silicon tracker, Space charge, Statistical errors, Total charge, Total collection time, Ubias.
Abstract
Abstract: Silicon detectors have been irradiated with fluences of up to 2.7 × 1013 neutrons/cm2, and have been subsequently studied using low-noise preamplifiers with a peaking time of about 15 ns. The detector response to minimum ionizing particles was found to be close to that of non-irradiated detectors. The short integration time of the preamplifier makes the shot noise due to the detector dark current tolerable up to at least 15 μA/channel.
Url:
DOI: 10.1016/0168-9002(93)91138-D
Links to Exploration step
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<affiliation><mods:affiliation>Cavendish Laboratory, University of Cambridge, Cambridge, UK</mods:affiliation>
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<author><name sortKey="Munday, D J" sort="Munday, D J" uniqKey="Munday D" first="D. J." last="Munday">D. J. Munday</name>
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<author><name sortKey="Parker, M A" sort="Parker, M A" uniqKey="Parker M" first="M. A." last="Parker">M. A. Parker</name>
<affiliation><mods:affiliation>Cavendish Laboratory, University of Cambridge, Cambridge, UK</mods:affiliation>
</affiliation>
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<author><name sortKey="Anghinolfi, F" sort="Anghinolfi, F" uniqKey="Anghinolfi F" first="F." last="Anghinolfi">F. Anghinolfi</name>
<affiliation><mods:affiliation>CERN, Geneva, Switzerland</mods:affiliation>
</affiliation>
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<author><name sortKey="Chilingarov, A" sort="Chilingarov, A" uniqKey="Chilingarov A" first="A." last="Chilingarov">A. Chilingarov</name>
<affiliation><mods:affiliation>CERN, Geneva, Switzerland</mods:affiliation>
</affiliation>
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<author><name sortKey="Ciasnohova, A" sort="Ciasnohova, A" uniqKey="Ciasnohova A" first="A." last="Ciasnohova">A. Ciasnohova</name>
<affiliation><mods:affiliation>CERN, Geneva, Switzerland</mods:affiliation>
</affiliation>
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<author><name sortKey="Glaser, M" sort="Glaser, M" uniqKey="Glaser M" first="M." last="Glaser">M. Glaser</name>
<affiliation><mods:affiliation>CERN, Geneva, Switzerland</mods:affiliation>
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<author><name sortKey="Jarron, P" sort="Jarron, P" uniqKey="Jarron P" first="P." last="Jarron">P. Jarron</name>
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<author><name sortKey="Go Ling, C" sort="Go Ling, C" uniqKey="Go Ling C" first="C." last="Gö Ling">C. Gö Ling</name>
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<author><name sortKey="Pilath, S" sort="Pilath, S" uniqKey="Pilath S" first="S." last="Pilath">S. Pilath</name>
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<author><name sortKey="Bonino, R" sort="Bonino, R" uniqKey="Bonino R" first="R." last="Bonino">R. Bonino</name>
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<author><name sortKey="Clark, A G" sort="Clark, A G" uniqKey="Clark A" first="A. G." last="Clark">A. G. Clark</name>
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<author><name sortKey="Kambara, H" sort="Kambara, H" uniqKey="Kambara H" first="H." last="Kambara">H. Kambara</name>
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<author><name sortKey="Wu, X" sort="Wu, X" uniqKey="Wu X" first="X." last="Wu">X. Wu</name>
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</affiliation>
</author>
<author><name sortKey="Fretwurst, E" sort="Fretwurst, E" uniqKey="Fretwurst E" first="E." last="Fretwurst">E. Fretwurst</name>
<affiliation><mods:affiliation>I. Institut für Experimentalphysik, Universität Hamburg, D-2000 Hamburg, Germany</mods:affiliation>
</affiliation>
</author>
<author><name sortKey="Lindstrom, G" sort="Lindstrom, G" uniqKey="Lindstrom G" first="G." last="Lindström">G. Lindström</name>
<affiliation><mods:affiliation>I. Institut für Experimentalphysik, Universität Hamburg, D-2000 Hamburg, Germany</mods:affiliation>
</affiliation>
</author>
<author><name sortKey="Schulz, T" sort="Schulz, T" uniqKey="Schulz T" first="T." last="Schulz">T. Schulz</name>
<affiliation><mods:affiliation>I. Institut für Experimentalphysik, Universität Hamburg, D-2000 Hamburg, Germany</mods:affiliation>
</affiliation>
</author>
<author><name sortKey="Moorhead, G F" sort="Moorhead, G F" uniqKey="Moorhead G" first="G. F." last="Moorhead">G. F. Moorhead</name>
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</affiliation>
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<author><name sortKey="Taylor, G N" sort="Taylor, G N" uniqKey="Taylor G" first="G. N." last="Taylor">G. N. Taylor</name>
<affiliation><mods:affiliation>School of Physics, University of Melbourne, Parkville, Victoria 3052, Australia</mods:affiliation>
</affiliation>
</author>
<author><name sortKey="Tovey, S N" sort="Tovey, S N" uniqKey="Tovey S" first="S. N." last="Tovey">S. N. Tovey</name>
<affiliation><mods:affiliation>School of Physics, University of Melbourne, Parkville, Victoria 3052, Australia</mods:affiliation>
</affiliation>
</author>
<author><name sortKey="Hawkings, R" sort="Hawkings, R" uniqKey="Hawkings R" first="R." last="Hawkings">R. Hawkings</name>
<affiliation><mods:affiliation>Department of Nuclear Physics, Oxford University, Oxford, UK</mods:affiliation>
</affiliation>
</author>
<author><name sortKey="Weidberg, A" sort="Weidberg, A" uniqKey="Weidberg A" first="A." last="Weidberg">A. Weidberg</name>
<affiliation><mods:affiliation>Department of Nuclear Physics, Oxford University, Oxford, UK</mods:affiliation>
</affiliation>
</author>
<author><name sortKey="Teiger, J" sort="Teiger, J" uniqKey="Teiger J" first="J." last="Teiger">J. Teiger</name>
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<front><div type="abstract" xml:lang="en">Abstract: Silicon detectors have been irradiated with fluences of up to 2.7 × 1013 neutrons/cm2, and have been subsequently studied using low-noise preamplifiers with a peaking time of about 15 ns. The detector response to minimum ionizing particles was found to be close to that of non-irradiated detectors. The short integration time of the preamplifier makes the shot noise due to the detector dark current tolerable up to at least 15 μA/channel.</div>
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</ce:author>
<ce:author><ce:given-name>F.</ce:given-name>
<ce:surname>Lemeilleur</ce:surname>
</ce:author>
<ce:author><ce:given-name>J.C.</ce:given-name>
<ce:surname>Santiard</ce:surname>
</ce:author>
<ce:affiliation><ce:textfn>CERN, Geneva, Switzerland</ce:textfn>
</ce:affiliation>
<ce:footnote id="FN1"><ce:label>1</ce:label>
<ce:note-para>On leave from Budker Institute of Nuclear Physics, Novosibirsk, Russian Federation</ce:note-para>
</ce:footnote>
</ce:author-group>
<ce:author-group><ce:author><ce:given-name>C.</ce:given-name>
<ce:surname>Gößling</ce:surname>
</ce:author>
<ce:author><ce:given-name>B.</ce:given-name>
<ce:surname>Lisowski</ce:surname>
</ce:author>
<ce:author><ce:given-name>S.</ce:given-name>
<ce:surname>Pilath</ce:surname>
</ce:author>
<ce:author><ce:given-name>A.</ce:given-name>
<ce:surname>Rolf</ce:surname>
</ce:author>
<ce:affiliation><ce:textfn>Institut für Physik, Universität Dortmund, D-4600 Dortmund, Germany</ce:textfn>
</ce:affiliation>
</ce:author-group>
<ce:author-group><ce:author><ce:given-name>R.</ce:given-name>
<ce:surname>Bonino</ce:surname>
</ce:author>
<ce:author><ce:given-name>A.G.</ce:given-name>
<ce:surname>Clark</ce:surname>
</ce:author>
<ce:author><ce:given-name>H.</ce:given-name>
<ce:surname>Kambara</ce:surname>
</ce:author>
<ce:author><ce:given-name>X.</ce:given-name>
<ce:surname>Wu</ce:surname>
</ce:author>
<ce:affiliation><ce:textfn>DPNC, Geneva University, Geneva, Switzerland</ce:textfn>
</ce:affiliation>
</ce:author-group>
<ce:author-group><ce:author><ce:given-name>E.</ce:given-name>
<ce:surname>Fretwurst</ce:surname>
</ce:author>
<ce:author><ce:given-name>G.</ce:given-name>
<ce:surname>Lindström</ce:surname>
</ce:author>
<ce:author><ce:given-name>T.</ce:given-name>
<ce:surname>Schulz</ce:surname>
</ce:author>
<ce:affiliation><ce:textfn>I. Institut für Experimentalphysik, Universität Hamburg, D-2000 Hamburg, Germany</ce:textfn>
</ce:affiliation>
</ce:author-group>
<ce:author-group><ce:author><ce:given-name>G.F.</ce:given-name>
<ce:surname>Moorhead</ce:surname>
</ce:author>
<ce:author><ce:given-name>G.N.</ce:given-name>
<ce:surname>Taylor</ce:surname>
</ce:author>
<ce:author><ce:given-name>S.N.</ce:given-name>
<ce:surname>Tovey</ce:surname>
</ce:author>
<ce:affiliation><ce:textfn>School of Physics, University of Melbourne, Parkville, Victoria 3052, Australia</ce:textfn>
</ce:affiliation>
</ce:author-group>
<ce:author-group><ce:author><ce:given-name>R.</ce:given-name>
<ce:surname>Hawkings</ce:surname>
</ce:author>
<ce:author><ce:given-name>A.</ce:given-name>
<ce:surname>Weidberg</ce:surname>
</ce:author>
<ce:affiliation><ce:textfn>Department of Nuclear Physics, Oxford University, Oxford, UK</ce:textfn>
</ce:affiliation>
</ce:author-group>
<ce:author-group><ce:author><ce:given-name>J.</ce:given-name>
<ce:surname>Teiger</ce:surname>
</ce:author>
<ce:affiliation><ce:textfn>Centre d'Etudes Nucleaires de Saclay, F-91191 Gif-sur-Yvette, France</ce:textfn>
</ce:affiliation>
</ce:author-group>
<ce:date-received day="12" month="7" year="1992"></ce:date-received>
<ce:abstract><ce:section-title>Abstract</ce:section-title>
<ce:abstract-sec><ce:simple-para>Silicon detectors have been irradiated with fluences of up to 2.7 × 10<ce:sup>13</ce:sup>
neutrons/cm<ce:sup>2</ce:sup>
, and have been subsequently studied using low-noise preamplifiers with a peaking time of about 15 ns. The detector response to minimum ionizing particles was found to be close to that of non-irradiated detectors. The short integration time of the preamplifier makes the shot noise due to the detector dark current tolerable up to at least 15 μA/channel.</ce:simple-para>
</ce:abstract-sec>
</ce:abstract>
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<abstract lang="en">Abstract: Silicon detectors have been irradiated with fluences of up to 2.7 × 1013 neutrons/cm2, and have been subsequently studied using low-noise preamplifiers with a peaking time of about 15 ns. The detector response to minimum ionizing particles was found to be close to that of non-irradiated detectors. The short integration time of the preamplifier makes the shot noise due to the detector dark current tolerable up to at least 15 μA/channel.</abstract>
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