Litcius/Paper detail

Overview and design of the sPHENIX TPC

H. T. Klest

2020Journal of Physics Conference Series15 citationsDOIOpen Access PDF

Abstract

Abstract The proposed sPHENIX detector at RHIC is being designed to study with unprecedented precision the nature of the Quark Gluon Plasma, or QGP, at RHIC through measurement of jets, jet correlations, and Y particles. To reach the goal of producing a high mass-resolution reconstruction of the Y(nS) states, a compact TPC covering pseudorapidities < |1.1| is under construction to provide sPHENIX with the necessary invariant mass resolution. Similar to the ALICE-TPC upgrade, the sPHENIX TPC design presently utilizes quadruple-GEM detectors. As an alternative solution, a double-GEM-Micromega hybrid arrangement is currently being tested. Utilizing novel zigzag patterned readout pads, a modified SAMPA readout chip, and an optimized Ne-CF4 gas mixture immersed in a 1.4 T magnetic field to reduce ion backflow, sPHENIX will have a unique lens into the QGP. The motivation behind the design and innovations of the TPC will be presented, along with the current status of the project.

Topics & Concepts

UpgradePhysicsBackflowDetectorQuark–gluon plasmaPlasmaZigzagNuclear physicsResolution (logic)Particle physicsOpticsComputer scienceMechanical engineeringEngineeringMathematicsGeometryOperating systemInletArtificial intelligenceParticle Detector Development and PerformanceParticle physics theoretical and experimental studiesHigh-Energy Particle Collisions Research