Date of Award
Summer 2017
Document Type
Dissertation
Degree Name
Doctor of Philosophy (PhD)
Department
Physics
Committee Director
Charles Hyde
Committee Member
Mark Havey
Committee Member
Grzegorz Kalicy
Committee Member
Jay Van Orden
Committee Member
Mike Overstreet
Abstract
An Electron-Ion Collider (EIC) is proposed as the next big scientific facility to be built in the United States, costing over $1 billion in design and construction. Each detector concept for the electron/ion beam interaction point is integrated into a large solenoidal magnet. The necessity for excellent hadronic particle identification (pion/kaon/proton) in the barrel region of the solenoid has pushed research and development (R&D) towards a new, high-performance Detection of Internally Reflected Cherenkov light (DIRC) detector design. The passage of a high energy charged particle through a fused silica bar of the DIRC generates optical Cherenkov radiation. A large fraction of this light propagates by total internal reflection to the end of the bar, where the photon trajectories expand in a large volume before reaching a highly segmented photo-detector array. The spatial and temporal distribution of the Cherenkov light at the photo-detector array allows one to reconstruct the angle of emission of the light relative to the incident charged particle track. In order to reach the desired performance of 3σ π/K separation at 6 GeV/c particle momentum a new 3-layer spherical lens focusing optic with a lanthanum crown glass central layer was designed to have a nearly flat focal plane. In order to validate the EIC DIRC simulation package, a synergistic test beam campaign was carried out in 2015 at the CERN PS with the PANDA Barrel DIRC group using a prototype DIRC detector. Along with the analysis of the CERN test beam data, measurements of the focal plane of the 3-layer lens were performed using a custom-built laser setup at Old Dominion University. Radiation hardness of the lanthanum crown glass was tested using a 160 keV X-ray source and a monochromator at the Catholic University of America. Results of these test-bench experiments and the analysis of the 2015 CERN test beam data are presented here.
Rights
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DOI
10.25777/502a-5g28
ISBN
9780355359015
Recommended Citation
Allison, Stacey L..
"R&D of a High-Performance DIRC Detector For a Future Electron-Ion Collider"
(2017). Doctor of Philosophy (PhD), Dissertation, Physics, Old Dominion University, DOI: 10.25777/502a-5g28
https://digitalcommons.odu.edu/physics_etds/13
ORCID
0000-0001-7655-3574