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Contents
- 1 Getting started
- 2 eRD14 Consortium: An integrated program for particle identification (PID) for a future Electron-Ion Collider (EIC) detector
- 3 People and Institutions
- 4 eRD14 Reports
- 5 eRD14 Presentations
Getting started
eRD14 Consortium: An integrated program for particle identification (PID) for a future Electron-Ion Collider (EIC) detector
The EIC PID consortium (eRD14) has been formed to develop an integrated program for particle identification (PID) for a future Electron-Ion Collider (EIC) detector, for which excellent particle identification is an essential requirement. For instance, identification of the hadrons in the final state is needed for understanding how different quark flavors contribute to the properties of hadrons, and reliable identification of the scattered electron is important for covering kinematics where pion backgrounds are large. The PID systems also have the greatest overall impact on the layout of the central detector, and put important constraints on the magnetic field. It is thus essential to conduct the relevant R&D at an early stage of the development of a complete EIC detector. In addition to providing solutions addressing the broader EIC requirements, the PID consortium has worked closely with BNL and JLab to ensure that the specific R&D projects are compatible with the detector concepts that are being pursued there.
To address the different requirement associated with the three different parts of the detector (ion-beam direction, electron-beam direction, and central region), the consortium is pursuing R&D on (and requesting funding for) three different technologies for imaging Cherenkov detectors: a dual-radiator (gas/aerogel) RICH for the hadron endcap, a high-performance DIRC for the barrel region, a modular aerogel RICH (mRICH) for the electron endcap (which could also be used in the hadron endcap in conjunction with a single-radiator gas RICH such as the one developed by eRD6). A 4π time-of-flight (TOF) coverage is also needed for PID in the momentum range below the Cherenkov threshold and for bunch identification (which is important for ring-ring colliders with a high repetition rate), for which the consortium has performed R&D on mRPC and MCP-PMT based TOF systems.
Central Barrel
High-Performance Detection of Internally Reflected Cherenkov Light (DIRC)
Outgoing Hadron-Side Endcap
Dual Radiator Ring Imaging Cherenkov Detector (dRICH)
Outgoing Electron-Side Endcap
Modular Ring Imaging Cherenkov Detector (mRICH)
e/π Cherenkov Detector for Lepton Identification
Timing and Slow-Particle PID
*Time of Flight Detector (TOF)
Photosensors and Electronics
Sensor Requirements
Parameter | DIRC | mRICH | dRICH |
---|---|---|---|
Gain | ~10^6 | ~10^6 | ~10^6 |
Timing Resolution | ≤ 100 ps | ≤ 800 ps | ≤ 800 ps |
Pixel Size | 2-3 mm | ≤3 mm | ≤ 3 mm |
Dark Noise | ≤ 1kHz/cm2 | ≤ 5MHz/cm2 | ≤ 5MHz/cm2 |
Radiation Hardness | Yes | Yes | Yes |
Single-photon mode operation? | Yes | Yes | Yes |
Magnetic-field immunity? | Yes (1.5–3 T) | Yes (1.5–3 T) | Yes (1.5–3 T) |
Photon Detection Efficiency | ≥ 20% | ≥ 20% | ≥ 20% |
Note: The EIC radiation levels are expected to be comparable to the levels at current operations of RHIC. The exact level will vary depending on the exact readout location of each PID detector’s readout.
Photosensors
Electronics
People and Institutions
eRD14 Reports
In this section, a collection of the eRD14 related documents which includes proposal, report, and presentation, are listed.
2016
- EIC PID (eRD14) Proposal FY17
- EIC PID Progress Report Dec. 2016
- All eRD FY17 Proposal/Reports and Committee Comments