Kevin C. Hurley
University of Wisconsin-Madison
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Publication
Featured researches published by Kevin C. Hurley.
nuclear science symposium and medical imaging conference | 1999
T. Tumer; E.E. Gordon; William J. Hamilton; Kevin C. Hurley; Dale G. Maeding; G. Mohanty; H. Ogelman; Robert J. Paulos; Richard C. Puetter; V.V. Souchkov; J. Zweerink
New, high spatial resolution CdZnTe (CZT) and silicon (Si) pixel detectors are developed for high angular and high energy resolution X-ray astronomy. These detectors are proposed for use in wide field-of-view, imaging All-sky X-ray, and Gamma-ray Astronomy Monitor (AXGAM) in a possible future space mission. The high stopping power of CZT detectors combined with low-noise front-end readout electronics ASIC (application specific integrated circuit) makes possible an order of magnitude improvement in spatial (angular) and energy resolution in X-ray detection. The AXGAM instrument will be built in the form of a fine coded mask placed over two-dimensional, high spatial resolution and low energy threshold silicon and CZT pixel detector arrays. The preliminary test results obtained from our first silicon and CZT pixel detectors are presented. These detectors may also be used with or without modification for medical and industrial imaging.
ieee nuclear science symposium | 2000
T. Tumer; M. Finger; E.E. Gordon; William J. Hamilton; Kevin C. Hurley; Dale G. Maeding; G. Mohanty; H. Ogelman; R.J. Paulos; J. Zweerink
New, high spatial resolution CdZnTe (CZT) and silicon (Si) pixel detectors are developed for high angular and high energy resolution X-ray astronomy. These detectors can be used for wide field-of-view all-sky X-ray, and gamma-ray monitors such as the AXGAM instrument and focusing X-ray imagers such as the high energy detector (HXT) proposed for the CONSTELLATION mission. The high stopping power of CZT detectors combined with low-noise front-end readout electronics ASIC (application specific integrated circuit) makes possible an order of magnitude improvement in spatial (angular) and energy resolution in X-ray detection. If silicon pixel detectors are used the energy threshold can be lowered. The preliminary test results obtained from our first silicon and CZT pixel detectors are presented. These detectors may also be used with or without modification for medical and industrial imaging.
IEEE Transactions on Nuclear Science | 1997
T. Tumer; T.J. O'Neill; Kevin C. Hurley; H. Ogelman; Robert J. Paulos; Richard C. Puetter; I. Kipnis; William J. Hamilton; R. Proctor
Archive | 2011
Kevin C. Hurley; S. Golenetskii; R. L. Aptekar; E. Mazets; Valentin Pal'Shin; Dmitry D. Frederiks; D. Svinkin; T. L. Cline; John O. Goldsten; Igor G. Mitrofanov; D. V. Golovin; Maxim L. Litvak; Anton B. Sanin; William V. Boynton; C. Fellows; K. Harshman; H. L. Enos; Richard D. Starr; Andreas von Kienlin; Xiaofeng Zhang; Valerie Connaughton; Michael Stephen Briggs; Charles A. Meegan; S. D. Barthelmy; J. R. Cummings; N. Gehrels; Hans A. Krimm; D. M. Palmer
Archive | 2005
Peter M. Woods; Chryssa Kouveliotou; Ersin Gogus; Mark H. Finger; Sandy Patel; Jean Hebb Swank; Kevin C. Hurley
Proceedings of 7th International Fermi Symposium — PoS(IFS2017) | 2017
Anastasia Tsvetkova; Dmitry D. Frederiks; Sergei Golenetskii; Alexandra L. Lysenko; P. Oleynik; Valentin Pal'Shin; D. Svinkin; M. Ulanov; Thomas L. Cline; Kevin C. Hurley; R. L. Aptekar
Proceedings of Swift: 10 Years of Discovery — PoS(SWIFT 10) | 2015
J. Greiner; Hoi-Fung Yu; Thomas Krühler; Dmitry D. Frederiks; Andrei M. Beloborodov; P. Naryana Bhat; J. Bolmer; H. van Eerten; R. L. Aptekar; Jonathan Elliott; S. Golenetskii; John F. Graham; Kevin C. Hurley; D. Alexander Kann; Sylvio Klose; Ana Nicuesa Guelbenzu; Patricia Schady; S. Schmidl; V. Sudilovsky; D. Svinkin; M. Tanga; M. Ulanov; K. Varela; Andreas von Kienlin; X. Zhang
Archive | 2011
Kevin C. Hurley; John O. Goldsten; Igor G. Mitrofanov; D. V. Golovin; Maxim L. Litvak; Anton B. Sanin; William V. Boynton; C. Fellows; K. Harshman; H. L. Enos; Richard D. Starr; S. Golenetskii; R. L. Aptekar; E. Mazets; Valentin Pal'Shin; Dmitry D. Frederiks; D. Svinkin; T. L. Cline; Kazutaka Yamaoka; Masanori Ohno; Y. Hanabata; Yasushi Fukazawa; T. Takahashi; Makoto Tashiro; Yukikatsu Terada; Toshio Murakami; Kazuo Makishima; S. D. Barthelmy; J. R. Cummings; N. Gehrels
Archive | 2011
Kevin C. Hurley; Igor G. Mitrofanov; D. V. Golovin; Maxim L. Litvak; Anton B. Sanin; William V. Boynton; C. Fellows; K. Harshman; H. L. Enos; Richard D. Starr; S. Golenetskii; R. L. Aptekar; E. Mazets; Valentin Pal'Shin; Dmitry D. Frederiks; D. Svinkin; T. L. Cline; David M. Smith; R. P. Lin; James M. McTiernan; Robert A. Schwartz; Wojtek Hajdas; Kazutaka Yamaoka; Masanori Ohno; Y. Hanabata; Yasushi Fukazawa; T. Takahashi; Makoto Tashiro; Yukikatsu Terada; Toshio Murakami
Archive | 2011
Kevin C. Hurley; Igor G. Mitrofanov; D. V. Golovin; Maxim L. Litvak; Anton B. Sanin; William V. Boynton; C. Fellows; K. Harshman; H. L. Enos; Richard D. Starr; Kazutaka Yamaoka; Masanori Ohno; Y. Hanabata; Yasushi Fukazawa; T. Takahashi; Makoto Tashiro; Yukikatsu Terada; Toshio Murakami; Kazuo Makishima; S. D. Barthelmy; J. R. Cummings; N. Gehrels; Hans A. Krimm; D. M. Palmer; John O. Goldsten; Guido Di Cocco; Fabio Fuschino; Marcello Galli; Claudio Labanti; M. Marisaldi
