Radiation hard diamond sensors for future tracking applications

Authors :: P. D'Angelo
V. K. Eremin
K. T. Knöpfle
S. Sala
M. Mishina
Jaap Velthuis
Harris Kagan
A. Logiudice
M. Mathes
Mara Bruzzi
Andrej Gorišek
K. K. Gan
J.L. Riester
C. Furetta
Robert Stone
E. Griesmayer
Jens Weingarten
A. Rudge
Steve Schnetzer
David Menichelli
J. Noomen
Silvio Sciortino
C. Colledani
V. Dabrowski
Wolfgang Adam
Manfred Krammer
Fred Hartjes
Wolfram Dietrich Zeuner
H. Frais-Kölbl
Norbert Wermes
E. Grigoriev
Wolfgang Lange
F. Fizzotti
C. Manfredotti
C. M. Sutera
R. D. Kass
P. Weilhammer
B. Van Eijk
W. De Boer
J. Kaplon
Josef Hrubec
B. Vincenzo
Renato Potenza
E. Borchi
Luigi Moroni
M. Pernicka
Heinz Pernegger
Alexander Oh
Fabian Huegging
W. Dulinski
William Trischuk
Publication Year :: 2006
Abstract: Progress in experimental particle physics in the coming decade depends crucially upon the ability to carry out experiments in high-radiation areas. In order to perform these complex and expensive experiments, new radiation hard technologies must be developed. This paper discusses the use of diamond detectors in future tracking applications and their survivability in the highest radiation environments. We present results of devices constructed with the newest polycrystalline and single crystal Chemical Vapor Deposition diamond and their tolerance to radiation.

Subjects :: Physics
Radiation hardness
Nuclear and High Energy Physics
Tracking detector
Survivability
Diamond
Nanotechnology
Chemical vapor deposition
CVD diamond
Radiation
engineering.material
Tracking (particle physics)
Engineering physics
engineering
Instrumentation (computer programming)
Instrumentation
Radiation hardening
Diamond detector

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