A silicon telescope for applications in nanodosimetry

Brian Keeney; Vladimir Bashkirov; Robert P. Johnson; Wilko Kroeger; Hiroshi Ohyama; Hartmut F.W. Sadrozinski; Reinhard W.M. Schulte; Abraham Seiden; Patrick Spradlin

doi:10.1109/TNS.2002.801676

A silicon telescope for applications in nanodosimetry

Brian Keeney, Vladimir Bashkirov, Robert P. Johnson, Wilko Kroeger, Hiroshi Ohyama, Hartmut F.W. Sadrozinski, Reinhard W.M. Schulte, Abraham Seiden, Patrick Spradlin

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Abstract

The position- and energy-sensitive primary particle detectors of a nanodosimetry system are described. They consist of a telescope of silicon strip detectors, which allow the determination of the particle's position from the hit strip address and its energy from the specific energy loss. In our implementation, the energy loss is measured through the time over threshold (TOT). When testing the performance of a single silicon strip detector, it was found that between the energies of 20 and 100 MeV, primary particle energy could be determined to an accuracy of 15%. decreasing to 25% at 250 MeV. Below 20 MeV, we observed TOT saturation. It is concluded that the performance of the tested silicon strip detector is suitable for application in nanodosimetry.

Original language	English
Pages (from-to)	1724-1727
Number of pages	4
Journal	IEEE Transactions on Nuclear Science
Volume	49 I
Issue number	4
DOIs	https://doi.org/10.1109/TNS.2002.801676
State	Published - Aug 2002

ASJC Scopus Subject Areas

Nuclear and High Energy Physics
Nuclear Energy and Engineering
Electrical and Electronic Engineering

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title = "A silicon telescope for applications in nanodosimetry",

abstract = "The position- and energy-sensitive primary particle detectors of a nanodosimetry system are described. They consist of a telescope of silicon strip detectors, which allow the determination of the particle's position from the hit strip address and its energy from the specific energy loss. In our implementation, the energy loss is measured through the time over threshold (TOT). When testing the performance of a single silicon strip detector, it was found that between the energies of 20 and 100 MeV, primary particle energy could be determined to an accuracy of 15%. decreasing to 25% at 250 MeV. Below 20 MeV, we observed TOT saturation. It is concluded that the performance of the tested silicon strip detector is suitable for application in nanodosimetry.",

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note = "Funding Information: Manuscript received November 27, 2001; revised April 19, 2001. This work was supported by the National Medical Technology Testbed Inc. (NMTB) under the U.S. Department of the Army Medical Research Acquisition Activity, Co-operative Agreement DAMD17-972-7016.",

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AU - Keeney, Brian

AU - Bashkirov, Vladimir

AU - Johnson, Robert P.

AU - Kroeger, Wilko

AU - Ohyama, Hiroshi

AU - Sadrozinski, Hartmut F.W.

AU - Schulte, Reinhard W.M.

AU - Seiden, Abraham

AU - Spradlin, Patrick

N1 - Funding Information: Manuscript received November 27, 2001; revised April 19, 2001. This work was supported by the National Medical Technology Testbed Inc. (NMTB) under the U.S. Department of the Army Medical Research Acquisition Activity, Co-operative Agreement DAMD17-972-7016.

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N2 - The position- and energy-sensitive primary particle detectors of a nanodosimetry system are described. They consist of a telescope of silicon strip detectors, which allow the determination of the particle's position from the hit strip address and its energy from the specific energy loss. In our implementation, the energy loss is measured through the time over threshold (TOT). When testing the performance of a single silicon strip detector, it was found that between the energies of 20 and 100 MeV, primary particle energy could be determined to an accuracy of 15%. decreasing to 25% at 250 MeV. Below 20 MeV, we observed TOT saturation. It is concluded that the performance of the tested silicon strip detector is suitable for application in nanodosimetry.

AB - The position- and energy-sensitive primary particle detectors of a nanodosimetry system are described. They consist of a telescope of silicon strip detectors, which allow the determination of the particle's position from the hit strip address and its energy from the specific energy loss. In our implementation, the energy loss is measured through the time over threshold (TOT). When testing the performance of a single silicon strip detector, it was found that between the energies of 20 and 100 MeV, primary particle energy could be determined to an accuracy of 15%. decreasing to 25% at 250 MeV. Below 20 MeV, we observed TOT saturation. It is concluded that the performance of the tested silicon strip detector is suitable for application in nanodosimetry.

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A silicon telescope for applications in nanodosimetry

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