X-Ray and Charged Particle Detection by Detuning of a Microwave Resonator

Antipov, Sergey; Avrakhov, Pavel; Dosov, Edward; Gomez, Edgar; Kuzikov, Sergey; Stoupin, Stanislav; Vikharev, Alexandr

doi:10.18429/JACoW-NAPAC2019-TUPLH08

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RIS citation export for TUPLH08: X-Ray and Charged Particle Detection by Detuning of a Microwave Resonator

TY  - CONF
AU  - Antipov, S.P.
AU  - Avrakhov, P.V.
AU  - Dosov, E.
AU  - Gomez, E.
AU  - Kuzikov, S.V.
AU  - Stoupin, S.
AU  - Vikharev, A.A.
ED  - Yamazaki, Yoshishige
ED  - Raubenheimer, Tor
ED  - McCausey, Amy
ED  - Schaa, Volker RW
TI  - X-Ray and Charged Particle Detection by Detuning of a Microwave Resonator
J2  - Proc. of NAPAC2019, Lansing, MI, USA, 01-06 September 2019
CY  - Lansing, MI, USA
T2  - North American Particle Accelerator Conference
T3  - 4
LA  - english
AB  - Charged particle detection is important for beam alignment, beam loss and background control. In case of halo detection, traditional wire scanner measurement utilizing carbon or tungsten wires is limited by the damage threshold of these materials. In this paper we present an electrodeless method to measure halo with a diamond scraper. This measurement utilizes a microwave resonator placed around the diamond scraper which is sensitive to charged particle-induced conductivity. Due to this transient induced conductivity in the dielectric, a microwave coupling to the resonator changes. Diamond in this case is chosen as a radiation hard material with excellent thermal properties. The absence of electrodes makes the device robust under the beam. The same measurement can be done for x-ray flux monitoring which is important for measurement feedback and calibration at modern x-ray light sources. In this case x-rays passing through the diamond sensing element enable a photo-induced conductivity and that in turn detunes the cavity placed around the diamond. Diamond being a low-Z material allows for in-line x-ray flux measurement without significant beam attenuation.
PB  - JACoW Publishing
CP  - Geneva, Switzerland
SP  - 503
EP  - 505
KW  - laser
KW  - electron
KW  - resonance
KW  - coupling
KW  - experiment
DA  - 2019/10
PY  - 2019
SN  - 2673-7000
SN  - 978-3-95450-223-3
DO  - doi:10.18429/JACoW-NAPAC2019-TUPLH08
UR  - http://jacow.org/napac2019/papers/tuplh08.pdf
ER  -