Journal ArticleDOI
Temporally resolved response of a natural type IIA diamond detector to single-particle excitation
S. Han,Stanley G. Prussin,L. S. Pan,D. R. Kania,Stephen M. Lane,G. Dennis,Ron S. Wagner,K. Harris +7 more
TLDR
In this paper, the authors measured the response of natural type IIa diamonds to single-particle excitations and found that the shape of the pulse tails changes from approximately exponential to approximately gaussian in form.About:
This article is published in Diamond and Related Materials.The article was published on 1993-04-13. It has received 6 citations till now. The article focuses on the topics: Rise time & Charged particle.read more
Citations
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Journal ArticleDOI
A fast low-noise charged-particle CVD diamond detector
TL;DR: In this paper, the authors presented the design and test results of a charged-particle solid-state detector with ultrafast signal response based on polycrystalline chemical-vapor-deposition (pCVD) diamond as active detector material and a high-bandwidth RF amplifier.
Journal ArticleDOI
Thin single crystal diamond detectors for alpha particle detection
F. Schirru,D. Chokheli,M. Kiš +2 more
TL;DR: In this paper, a comparison of the charge transport properties obtained by time of flight (ToF) technique between detectors based on the same diamond samples, but with different metallization of the electrodes (Au and Al, 100nm thick), and commercially purchased diamond detectors is performed.
Book ChapterDOI
Passive Diamond Electronic Devices
TL;DR: Diamond electronic device exploration began over 70 years ago with evaluations of natural stones for potential use as radiation detectors as mentioned in this paper, but diamond has not found wide acceptance as a material for electronic device fabrication owing to the availability of reproducible high quality large-area, inexpensive material.
Diamond Sensor Resolution in Simultaneous Detection of 1,2,3 Electrons at the PHIL Photoinjector Facility at LAL
Viacheslav Kubytskyi,Philip Bambade,Sergey Barsuk,Oleg Bezshyyko,Vlad Krylov,Volodymyr Rodin +5 more
TL;DR: In this article, the authors present experimental and numerical studies of the signals from the Poisson-like distributions resulting from electrons incident on a diamond sensor placed near the exit of the PHIL photoinjector facility at LAL.
Journal ArticleDOI
Study of low multiplicity electron source LEETECH with diamond detector
V. Kubytskyi,Vladyslav Krylov,Vladyslav Krylov,P. Bambade,B. Cabouat,F. Wicek,F. Bogard,Sergey Barsuk,Volodymyr Rodin,L. Burmistrov,Oleg Bezshyyko,David Attié,P. Colas,O. Fedorchuk,L. Golinka-Bezshyyko,R. Lopez,H. Monard,J.-N. Cayla,D. Sukhonos,Maksym Titov,D. Tomassini,Alessandro Variola +21 more
TL;DR: In this article, the authors present experimental and numerical studies of the calibration of low-multiplicity electron source using signals from electrons incident on a diamond detector, and they show that with a single crystal CVD diamonds of 500 micrometers thickness, the energy losses from the first three electrons of 2.5-3 MeV are clearly resolved.
References
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Journal ArticleDOI
Bound Excitons and Donor-Acceptor Pairs in Natural and Synthetic Diamond
Journal ArticleDOI
Displacement threshold energy for type IIa diamond
TL;DR: In this paper, the threshold energy for displacement of atoms from their lattice sites was determined for three principal crystallographic directions by observing the formation of defect clusters during irradiation in a transmission electron microscope.
Journal ArticleDOI
Electrical properties and performances of natural diamond nuclear radiation detectors
TL;DR: In this article, the performances of diamond nuclear radiation detectors have been investigated using alpha and beta particles, and an energy for electron-hole pair creation of 13.19 eV has been determined for alpha particles in the 5-6 MeV energy range.
Journal ArticleDOI
A thermally activated solid state reaction process for fabricating ohmic contacts to semiconducting diamond
TL;DR: In this paper, a thermally activated solid state reaction which produces a refractory carbide precipitate at the original diamond/metal interface is the principal factor in affecting the properties of the contacts.
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