Requirement Details
Electron Ion Collider
G-DET.10
Requirement details, history, relationships and interfaces associated with requirement G-DET.10
CURRENT RECORD- ARCHIVE RECORDS
- RELATIONSHIPS
- INTERFACES
| Record Date: 10/11/2023 00:00 | |||
| Identifier: | G-DET.10 | WBS: | 6.10 |
| Date Modified: | TBD: | FALSE | |
| Status Date: | Status: | APPROVED | |
| Description: | The detector systems must fit within the available space in the experimental hall, and be consistent with the available infrastructure and resources. | ||
| Comments: | |||
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| F-DET-ANC-B0.3 | B0-system must fit and be integrated into the warm area of the B0-dipole. The B0-systems shall require appropriate power and cabling to support operation of the detector elements.Should have survey marks to determine their physical location |
| F-DET-ANC-B0.5 | B0-system must operate at a full projected EIC luminosity and must be resistant to extreme background conditions, high neutron flux in particular, at the levels specified by the simulation studies |
| F-DET-ANC-LOWQ2.4 | Low-Q2 tagger will be positioned next to the outgoing electron beampipe, between the B2eR dipole and Q3eR quadrupole. |
| F-DET-ANC-LOWQ2.6 | LowQ2 system must be resistant to extreme background conditions (synchrotron radiation, bremsstrahlung events and slow neutrons in particular) at the levels specified by the simulation studies |
| F-DET-ANC-LUMI.1 | The luminosity detectors shall be composed of a Pair Spectrometer (PS) with 2 stations (above and below zero degree line) with tracking layers in front, and a direct photon CAL along the zero degree line. |
| F-DET-ANC-LUMI.2 | The PS must measure the energy and position of e+e- pairs from bremsstrahlung conversions. The direct photon CAL must measure the energy of the large bremsstrahlung flux while mitigating the high rates of background synchrotron radiation. |
| F-DET-ANC-OFFMO.3 | Must be resistant to extreme background conditions, high neutron flux in particular, at the levels specified by the simulation studies. |
| F-DET-ANC-ROMAN.4 | Must be resistant to extreme background conditions, high neutron flux in particular, at the levels specified by the simulation studies. |
| F-DET-ANC-ZDC.4 | Must be resistant to extreme background conditions, high neutron flux in particular, at the levels specified by the simulation studies. |
| F-DET-ANC-ZDC.6 | ZDC should provide a VETO for the charged particles |
| F-DET-DAQ.1 | DAQ related resources shall require physical space in the experimental hall (e.g. electronics racks). In the experimental hall multiple designated locations must be available to provide necessary proximity to all instrumented DET systems. |
| F-DET-DAQ.2 | DAQ related resources shall require physical space within the "counting house". A single separated closed space for computing resources (DAQ Room) shall be required in addition to a User occupied operations space (Control room). |
| F-DET-ECAL.1 | Must fit in the available space. |
| F-DET-ECAL.2 | The EMCal systems shall require adequate support structures, and survey marks to determine their physical location. |
| F-DET-ECAL.3 | The EMCal systems shall require appropriate power and cabling to support operation of the detector elements. |
| F-DET-ECAL.5 | Photosensors and readout electronics must tolerate the magnetic field in the subsystem location. |
| F-DET-HCAL.1 | The HCal systems shall require adequate support structures, and survey marks to determine their physical location. |
| F-DET-HCAL.2 | The HCal systems shall require appropriate power and cabling to support operation of the detector elements. |
| F-DET-HCAL.4 | Must be resilient against harsh background conditions, high neutron flux in the IR area in particular, at the levels specified by the simulation studies. |
| F-DET-HCAL.7 | Must be compact enough to fit in the limited space allocated for the EIC detector, but at the same time provide a hermetic coverage and have sufficient depth in order to efficiently contain the hadronic showers. |
| F-DET.11 | The detector and its sub-systems will require adequate infrastructure resources (i.e. power, cooling, cryogens, etc.) to ensure it can function reliably during continous operations. |
| F-DET.12 | The detector and its sub-systems will require adequate infrastructure capabilities (i.e. crane capacity, floor loading, physical space, etc.) to effectively support operations and maintenance. |
| F-DET.13 | The configuration of the sub-systems within the detector will be coordinated to ensure efficient operation and to minimize adverse interactions between sub-systems. |
| F-DET.14 | The sub-systems and their support systems must fit in the available space AND provide adequate plenums and pathways for the delivery of services, resources and communications, and for the removal of heat and waste during operations. |
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