1. Design and Beam Test Results for the 2-D Projective sPHENIX Electromagnetic Calorimeter Prototype.
- Author
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Aidala, C. A., Altaf, S., Belmont, R., Boose, S., Cacace, D., Connors, M., Desmond, E., Frantz, J., Gamez, E. A., Grau, N., Haggerty, J. S., Hodges, A., Huang, J., Kim, Y., Lenz, M. D., Lenz, W., Lewis, N. A., Mannel, E. J., Osborn, J. D., and Perepelitsa, D. V.
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RELATIVISTIC Heavy Ion Collider , *QUANTUM chromodynamics , *CALORIMETERS , *QUARK-gluon plasma , *PROTOTYPES - Abstract
sPHENIX is a new experiment under construction for the Relativistic Heavy Ion Collider at Brookhaven National Laboratory which will study the quark-gluon plasma to further the understanding of quantum chromodynamics (QCP) matter and interactions. A prototype of the sPHENIX electromagnetic calorimeter (EMCal) was tested at the Fermilab Test Beam Facility in Spring 2018 as experiment T-1044. The EMCal prototype corresponds to a solid angle of Δη × Δφ = 0.2 × 0.2 centered at pseudo-rapidity η = 1. The prototype consists of scintillating fibers embedded in a mix of tungsten powder and epoxy. The fibers project back approximately to the center of the sPHENIX detector, giving 2-D projectivity. The energy response of the EMCal prototype was studied as a function of position and input energy. The energy resolution of the EMCal prototype was obtained after applying a position-dependent energy correction and a beam profile correction. Two separate position-dependent corrections were considered. The EMCal energy resolution was found to be σ(E)/〈E〉 = 3.5(0.1) ⊕ 13.3(0.2)/√E based on the hodoscope position-dependent correction, and σ(E)/〈E〉 = 3.0(0.1) ⊕ 15.4(0.3)/√E based on the cluster position-dependent correction. These energy resolution results meet the requirements of the sPHENIX physics program. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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