Requirement Details
Electron Ion Collider
G-HSR.11
Requirement details, history, relationships and interfaces associated with requirement G-HSR.11
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Record Date: 10/10/2024 14:48 | |||
Identifier: | G-HSR.11 | WBS: | 6.05 |
Date Modified: | TBD: | FALSE | |
Status Date: | Status: | In Process | |
Description: | The Au ion bunches delivered by the HSR shall meet all the criteria set forth in the MPT [5.9] tables 1 and 2. | ||
Comments: |
No archive versions
Parents | |
No parents. | |
Children | |
F-HSR-INJ.11 | The new HSR injection kicker system shall be capable of producing the 1 mrad horizontal kick. |
F-HSR-INST-BLM.1 | Requirements for BLM system shall be the same as for existing RHIC BLMs. Presently no BLM system upgrade is required. (These statements may change after future Machine Protection System studies.) [5.8]Â |
F-HSR-INST-BPM.1 | BPMs supporting physics requirements shall be strategically placed around the HSR. |
F-HSR-INST-DCCT.1 | The DCCT shall be capable of operating in four main EIC parameter configurations (highest average current, highest peak current, ramp configuration and injection configuration) in the HSR. [5.9]Â |
F-HSR-INST-FDBK_SYS.1 | The feedback systems shall be capable of operating in four main EIC parameter configurations (highest average current, highest peak current, ramp configuration and injection configuration) in the HSR. [5.9]Â |
F-HSR-INST-GC.1 | The gap cleaner shall be capable of operating in four main EIC parameter configurations (highest average current, highest peak current, ramp configuration and injection configuration) in the HSR. [5.9]Â |
F-HSR-INST-HFSCH.1 | The HF Schottky instrumentation shall be capable of operating in four main EIC parameter configurations (highest average current, highest peak current, ramp configuration and injection configuration) in the HSR. [5.9]Â |
F-HSR-INST-HTPIUP.1 | The head-tail pick-up shall be capable of operating in four main EIC parameter configurations (highest average current, highest peak current, ramp configuration and injection configuration) in the HSR. [5.9]Â |
F-HSR-INST-INJ_BLM.1 | Beam loss monitors with the same requirements as similar ones existing in the ATR beamline shall be added in the extension of the ATR Y-line at 5 o’clock area and in the transfer line at 4 o’clock area [5.8]. |
F-HSR-INST-INJ_BPM.1 | BPMs with the same requirements as similar ones existing in the ATR beamline shall be added in the extension of the ATR Y-line at 5 o’clock area and in the transfer line at 4 o’clock area [5.8]. |
F-HSR-INST-INJ_DCCT.1 | Current transformers with the same requirements as similar ones existing in the ATR beamline shall be added in the extension of the ATR Y-line at 5 o’clock area and in the transfer line at 4 o’clock area [5.8]. |
F-HSR-INST-INJ_DMP.1 | The injection damper shall be capable to operate in injection configuration (main EIC parameter configuration number 4) in the HSR. [5.9]Â |
F-HSR-INST-INJ_PSBPM.1 | Phosphor screen beam profile monitors (plunging) with the same requirements as similar ones existing in the ATR beamline shall be added in the extension of the ATR Y-line at 5 o’clock area and in the transfer line at 4 o’clock area [5.8]. |
F-HSR-INST-LFSCH.1 | The LF Schottky instrumentation shall be capable of operating in four main EIC parameter configurations (highest average current, highest peak current, ramp configuration and injection configuration) in the HSR. [5.9]Â |
F-HSR-INST-LNG_DMP.1 | The longitudinal damper shall be capable of operating in four main EIC parameter configurations (highest average current, highest peak current, ramp configuration and injection configuration) in the HSR. [5.9]Â |
F-HSR-INST-LPM.1 | An LPM supporting physics requirements shall be strategically placed in the HSR. |
F-HSR-INST-TM.1 | The horizontal and vertical tune meter kicker shall be able to excite individual bunches and be capable to operate in four main EIC parameter configurations (highest average current, highest peak current, ramp configuration and injection configuration) in the HSR. [5.9]Â |
F-HSR-INST-TM_BB.1 | The base-band tune meter shall be capable of operating in four main EIC parameter configurations (highest average current, highest peak current, ramp configuration and injection configuration) in the HSR. [5.9]Â |
F-HSR-INST-TPM.1 | TPMs supporting physics requirements shall be strategically placed around the HSR. |
F-HSR-INST-TRNSV_DMP.1 | The transverse bunch-by-bunch damper shall be capable of operating in four main EIC parameter configurations (highest average current, highest peak current, ramp configuration and injection configuration) in the HSR. [5.9]Â |
F-HSR-INST.1 | Beam instrumentation shall be capable of providing operational data at the highest average current configuration given in [5.9]. |
F-HSR-INST.2 | Beam instrumentation shall be capable of porviding operational data at the highest peak current configuration given in [5.9]. |
F-HSR-INST.3 | Beam instrumentation shall be capable of providing operational data required in the accelerate and ramp configuration for the all bunches specified in[5.9]. |
F-HSR-INST.5 | The 41 GeV operation mode, which utilizes a different arc in the 10-12 sextant, shall have the same capability of beam diagnostics as the high energy operation modes [5.9]. |
F-HSR-MAG-PS.1 | The HSR magnets shall be fed by a system of power supplies matched in voltage and maximum current to the specifications and requirements of the respective magnets |
F-HSR-MAG.3 | The HSR sections consisting of Blue Ring segments shall provide the same quench protection functionality as Yellow Ring segments (diode polarity). |
F-HSR-MAG.5 | The HSR sextupole families shall be wired to allow for the compensation of nonlinear chromaticity. |
F-HSR-STR_IR08.4 | The cryogenic lines in IR8 shall be reconfigured to connect the existing arcs and accommodate the new warn switching magnet. |
F-HSR-STR_IR10.6 | The HSR IR10 cryogenic lines shall be reconfigured to support cryogenic operation of inner 10-12 arc in 41 GeV operation mode. |
F-HSR-STR_IR12.6 | The HSR IR12 cryogenic lines shall be reconfigured to support cryogenic operation of inner 10-12 arc in 41 GeV operation mode. |
F-HSR.4 | The HSR systems shall provide the capability to operate with at least +/-21 mm radial shift of beam orbit in all arcs. |
F-HSR.6 | The HSR decoupling system shall provide the capability to maintain the flat beam with the required beam size ratios. |
This function not yet implemented.