E. Charles
University of Wisconsin-Madison
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Publication
Featured researches published by E. Charles.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2002
I. Gorelov; Grant Gorfine; M. R. Hoeferkamp; V Mata-Bruni; Geno Santistevan; S. Seidel; A. Ciocio; K. Einsweiler; J. Emes; M. Gilchriese; A Joshi; S. Kleinfelder; R. Marchesini; F McCormack; O Milgrome; N Palaio; F Pengg; J. Richardson; G. Zizka; M. Ackers; G. Comes; P. Fischer; M. Keil; G Martinez; I. Peric; O. Runolfsson; T. Stockmanns; J. Treis; N. Wermes; C. Gößling
Prototype sensors for the ATLAS silicon pixel detector have been electrically characterized. The current and voltage characteristics, charge-collection efficiencies, and resolutions have been examined. Devices were fabricated on oxygenated and standard detector-grade silicon wafers. Results from prototypes which examine p-stop and standard and moderated p-spray isolation are presented for a variety of geometrical options. Some of the comparisons relate unirradiated sensors with those that have received fluences relevant to LHC operation.
Journal of Instrumentation | 2008
A. Abdesselam; T. Barber; Alan Barr; P.J. Bell; J. Bernabeu; J. M. Butterworth; J. R. Carter; A. A. Carter; E. Charles; A. Clark; A. P. Colijn; M. J. Costa; J Dalmau; B. Demirkoz; Paul Dervan; M. Donega; M D'Onifrio; C. Escobar; D. Fasching; D. Ferguson; P. Ferrari; D. Ferrere; J. Fuster; Bj Gallop; C. Garcia; S. Gonzalez; S. Gonzalez-Sevilla; M. J. Goodrick; A. Gorišek; A. Greenall
The SemiConductor Tracker (SCT) data acquisition (DAQ) system will calibrate, configure, and control the approximately six million front-end channels of the ATLAS silicon strip detector. It will provide a synchronized bunch-crossing clock to the front-end modules, communicate first-level triggers to the front-end chips, and transfer information about hit strips to the ATLAS high-level trigger system. The system has been used extensively for calibration and quality assurance during SCT barrel and endcap assembly and for performance confirmation tests after transport of the barrels and endcaps to CERN. Operating in data-taking mode, the DAQ has recorded nearly twenty million synchronously-triggered events during commissioning tests including almost a million cosmic ray triggered events. In this paper we describe the components of the data acquisition system, discuss its operation in calibration and data-taking modes and present some detector performance results from these tests
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2003
V. Re; D. Kirkby; J. W. Berryhill; S. Burke; D. Callahan; C. Campagnari; B. Dahmes; Daniel E. Hale; P.A. Hart; S. Kyre; S. Levy; Owen Rosser Long; Ma Mazur; J. D. Richman; J. Stoner; W. Verkerke; J. Beringer; A. M. Eisner; M. Grothe; W. S. Lockman; T. Pulliam; A. Seiden; W. Walkowiak; M. G. Wilson; C. Borean; C. Bozzi; L. Piemontese; S. Laplace; A. B. Breon; D. N. Brown
Abstract A brief summary of the design goals, description, and performance of the BABAR Silicon Vertex Tracker is given. Results from radiation hardness tests are discussed, which indicate satisfactory operation up to 5 Mrad of accumulated radiation. The local alignment procedure has made significant improvements recently, and four readout sections were recovered during the BABAR shutdown in 2002.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2004
V. Re; M. Bruinsma; D. Kirkby; J. W. Berryhill; S. Burke; D. Callahan; C. Campagnari; B. Dahmes; Daniel E. Hale; P.A. Hart; S. Kyre; S. Levy; Owen Rosser Long; Ma Mazur; J. D. Richman; J. Stoner; W. Verkerke; J. Beringer; A. M. Eisner; M. Grothe; W. S. Lockman; T. Pulliam; A. Seiden; W. Walkowiak; M. G. Wilson; C. Borean; C. Bozzi; L. Piemontese; A. B. Breon; D. N. Brown
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2005
V. Re; D. Kirkby; M. Bruinsma; J. W. Berryhill; S. Burke; D. Callahan; C. Campagnari; B. Dahmes; Daniel E. Hale; P.A. Hart; S. Kyre; S. Levy; Owen Rosser Long; Ma Mazur; J. D. Richman; J. Stoner; W. Verkerke; J. Beringer; T. W. Beck; A. M. Eisner; M. Grothe; W. S. Lockman; T. Pulliam; A. Seiden; P. Spradlin; W. Walkowiak; M. G. Wilson; C. Borean; C. Bozzi; L. Piemontese
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2004
V. Re; D. Kirkby; M. Bruinsma; J. W. Berryhill; S. Burke; D. Callahan; C. Campagnari; B. Dahmes; Daniel E. Hale; P.A. Hart; S. Kyre; S. Levy; Owen Rosser Long; Ma Mazur; J. D. Richman; J. Stoner; W. Verkerke; J. Beringer; T. W. Beck; A. M. Eisner; M. Grothe; W. S. Lockman; T. Pulliam; A. Seiden; P. Spradlin; W. Walkowiak; M. G. Wilson; C. Borean; C. Bozzi; L. Piemontese
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2004
V. Re; D. Kirkby; M. Bruinsma; J. W. Berryhill; S. Burke; D. Callahan; C. Campagnari; B. Dahmes; Daniel E. Hale; P.A. Hart; S. Kyre; S. Levy; Owen Rosser Long; Ma Mazur; J. D. Richman; J. Stoner; W. Verkerke; J. Beringer; A. M. Eisner; M. Grothe; W. S. Lockman; T. Pulliam; A. Seiden; W. Walkowiak; M. G. Wilson; C. Borean; C. Bozzi; L. Piemontese; A. B. Breon; D. N. Brown
