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000619916 005__ 20241220221620.0
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000619916 0247_ $$2arXiv$$aarXiv:2409.20091
000619916 0247_ $$2datacite_doi$$a10.3204/PUBDB-2024-08017
000619916 037__ $$aPUBDB-2024-08017
000619916 041__ $$aEnglish
000619916 082__ $$a530
000619916 088__ $$2arXiv$$aarXiv:2409.20091
000619916 1001_ $$0P:(DE-H253)PIP1019945$$aSchütze, Paul$$b0$$eCorresponding author$$udesy
000619916 245__ $$aelectronCT - an imaging technique using very-high energy electrons
000619916 260__ $$c2024
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000619916 500__ $$a19 pages, 11 figures
000619916 520__ $$aThe electronCT technique is an imaging method based on the multiple Coulomb scattering of relativistic electrons and has potential applications in medical and industrial imaging. It utilizes a pencil beam of electrons in the very high energy electron (VHEE, 50–250 MeV) range and a single detection layer for the determination of the beam profile. The technique constitutes a projectional, two-dimensional imaging method and thus also qualifies for the tomographic reconstruction of samples. Given the simplicity of the technical setup and its location behind the sample, the electronCT technique has potential synergies with VHEE radiotherapy, making use of the same electron source for both treatment and diagnostics and thus being a candidate for in situ imaging and patient localization. At the same time, several technical challenges arise from the measurement technique when applied for the imaging of living beings. Measurements performed at the ARES linear particle accelerator at an electron energy of 155 MeV using a mouse phantom and a Timepix3 silicon pixel detector assembly demonstrate the feasibility of this technique. Both projectional and tomographic reconstructions are presented and the potential and limits of the technology are discussed.
000619916 536__ $$0G:(DE-HGF)POF4-611$$a611 - Fundamental Particles and Forces (POF4-611)$$cPOF4-611$$fPOF IV$$x0
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000619916 650_7 $$2autogen$$aelectronCT
000619916 650_7 $$2autogen$$amedical imaging
000619916 650_7 $$2autogen$$amultiple scattering
000619916 650_7 $$2autogen$$aAREs
000619916 650_7 $$2autogen$$aVHEE
000619916 650_7 $$2autogen$$aTimepix3
000619916 650_7 $$2autogen$$aradiation therapy
000619916 693__ $$0EXP:(DE-H253)ARES-20200101$$1EXP:(DE-H253)SINBAD-20200101$$5EXP:(DE-H253)ARES-20200101$$aSINBAD$$eAccelerator Research Experiment at SINBAD$$x0
000619916 7001_ $$0P:(DE-H253)PIP1108098$$aAbel, Aenne$$b1$$udesy
000619916 7001_ $$aBurkart, Florian$$b2
000619916 7001_ $$0P:(DE-H253)PIP1092505$$ade Silva, L. Malinda S.$$b3$$udesy
000619916 7001_ $$aDinter, Hannes$$b4
000619916 7001_ $$aDojan, Kevin$$b5
000619916 7001_ $$aHerkert, Adrian$$b6
000619916 7001_ $$aJaster-Merz, Sonja$$b7
000619916 7001_ $$aKellermeier, Max Joseph$$b8
000619916 7001_ $$aKuropka, Willi$$b9
000619916 7001_ $$aMayet, Frank$$b10
000619916 7001_ $$aDaza, Sara Ruiz$$b11
000619916 7001_ $$0P:(DE-H253)PIP1018940$$aSpannagel, Simon$$b12$$udesy
000619916 7001_ $$aVinatier, Thomas$$b13
000619916 7001_ $$aWennlöf, Håkan$$b14
000619916 7870_ $$0PUBDB-2024-04847$$aSchütze, Paul et.al.$$dLausanne : Frontiers Media, 2024$$iIsMemberOf$$telectronCT - An Imaging Technique Using Very-high Energy Electrons
000619916 8564_ $$uhttps://arxiv.org/abs/2409.20091
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000619916 9141_ $$y2024
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000619916 9201_ $$0I:(DE-H253)CMS-20120731$$kCMS$$lLHC/CMS Experiment$$x0
000619916 9201_ $$0I:(DE-H253)ATLAS-20120731$$kATLAS$$lLHC/ATLAS Experiment$$x1
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