Requirement Details
Electron Ion Collider
G-DET.1
Requirement details, history, relationships and interfaces associated with requirement G-DET.1
CURRENT RECORD- ARCHIVE RECORDS
- RELATIONSHIPS
- INTERFACES
| Record Date: 07/14/2023 00:00 | |||
| Identifier: | G-DET.1 | WBS: | 6.1 |
| Date Modified: | 07/14/2023 00:00 | TBD: | FALSE |
| Status Date: | 07/14/2023 00:00 | Status: | APPROVED |
| Description: | The EIC detector system shall be capable to detect all reaction products, related to the scattered electron, the scattered parton, and the remnant proton/ion, such that the impact of incomplete kinematic coverage on the respective science is minimized. | ||
| Comments: | |||
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| F-DET-TRAK.1 | The tracking system must provide a low detection threshold for pions and kaons. |
| F-DET-TRAK.2 | The tracking system must provide high hermicity in exclusive and diffractive channels. |
| F-DET.2 | The EIC central detector shall cleanly identify the electron-quark and electron-gluon scattering process to high efficiency by a combination of tracking, particle identification detectors and calorimeters. |
| F-DET.3 | The EIC central solenoid magnet shall provide the means to momentum-analyze the charged particles associated with the hadrons produced in electron-quark / electron-gluon scattering process. |
| F-DET.4 | The EIC central detector system shall allow for particle identification of pions, kaons and protons over a wide range of momentum in the barrel, forward endcap and backward endcap regions. |
| F-DET.5 | The EIC central detector shall allow for heavy flavor and other long-living particle measurements through a vertex resolution. |
| F-DET.6 | The EIC central detector shall allow for separation of single-photons from neutral-pion decay into two photons over a wide region in momentum. |
| F-DET.7 | The EIC far-backward detector shall complement the central detector in the low- Q2 electron scattering region below 1 GeV2. |
| F-DET.8 | The EIC far-forward detector shall measure proton/ion remnants with momenta up to less than 1% different from the proton/ion beam momentum. |
None defined.