Requirement Details
Electron Ion Collider
G-HSR.07
Requirement details, history, relationships and interfaces associated with requirement G-HSR.07
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Record Date: 12/06/2024 11:13 | |||
Identifier: | G-HSR.07 | WBS: | 6.05 |
Date Modified: | TBD: | FALSE | |
Status Date: | Status: | In Process | |
Description: | The HSR shall provide the capability to collide electrons with Au ions at 41 GeV/nucleon and 110 GeV/nucleon energies. | ||
Comments: |
Record Date: 12/06/2024 11:10 | |||
Identifier: | G-HSR.07 | WBS: | 6.05 |
Date Modified: | TBD: | FALSE | |
Status Date: | Status: | In Process | |
Description: | The HSR shall provide the capability to collide electrons with Au ions at 41 GeV/nucleon and 110 GeV/nucleon energies. | ||
Comments: |
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-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.1 | The magnets shall meet the requirements defined by the physics lattice.   |
F-HSR-MAG.2 | The magnets shall have the required field quality to meet the operational needs. |
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.4 | The maximum acceptable magnetic stray field at the beam pipe shall be TBD gauss. |
F-HSR-MAG.5 | The HSR sextupole families shall be wired to allow for the compensation of nonlinear chromaticity. |
F-HSR-RF-H1260.1 | The h=1260 RF system shall provide an operational installed voltage capable to perform the 2:4 bunch splitting required to produce the required store bunch patterns [5.9]. |
F-HSR-RF-H1260.2 | The h=1260 RF system must have an operating frequency range compatible with the full range of revolution frequencies [5.9]. |
F-HSR-RF-H1260.3 | The h=1260 RF cavities shall have a fundamental mode damper system to make the cavities sufficiently transparent to the beam when cavity voltage is not required or desired.  |
F-HSR-RF-H2520.1 | The h=2520 RF system shall provide an operational installed voltage capable to perform initial bunch length compression to achieve the required store bunch lengths [5.9]. |
F-HSR-RF-H2520.2 | The h=2520 RF system must have an operating frequency range compatible with the full range of revolution frequencies [5.9]. |
F-HSR-RF-H2520.3 | The h=2520 RF cavities shall have a fundamental mode damper system to make the cavities sufficiently transparent to the beam when cavity voltage is not required or desired.  |
F-HSR-RF-H315.1 | The h=315 RF system shall re-use the existing RHIC 28 MHz cavities with appropriate modifications.  |
F-HSR-RF-H315.2 | The h=315 RF system shall provide an operational installed voltage capable of capture and acceleration of all HSR injected beams [5.9]. |
F-HSR-RF-H315.3 | The h=315 RF system shall have an operating frequency range compatible with the range of revolution frequencies [5.9]. |
F-HSR-RF-H315.4 | The h=315 RF cavities shall have a fundamental mode damper system to make the cavities sufficiently transparent to the beam when cavity voltage is not required or desired.  |
F-HSR-RF-H630.1 | The h=630 RF system shall provide an operational installed voltage capable to perform the 1:2 bunch splitting required to produce the required store bunch patterns [5.9]. |
F-HSR-RF-H630.2 | The h=630 RF system must have an operating frequency range compatible with the full range of revolution frequencies [5.9]. |
F-HSR-RF-H630.3 | The h=630 RF cavities shall have a fundamental mode damper system to make the cavities sufficiently transparent to the beam when cavity voltage is not required or desired.  |
F-HSR-RF-H7560.1 | The h=7560 RF system shall provide an operational installed voltage capable to perform final bunch length compression to achieve the required store bunch lengths [5.9]. |
F-HSR-RF-H7560.2 | The h=7560 RF system must have an operating frequency range compatible with the full range of revolution frequencies [5.9]. |
F-HSR-RF-H7560.3 | The h=7560 RF cavities shall have a fundamental mode damper system to make the cavities sufficiently transparent to the beam when cavity voltage is not required or desired.  |
F-HSR-RF.1 | The HSR Ring RF system shall include an h=315 system capable of capture and acceleration of all beams [5.9].  |
F-HSR-RF.2 | The HSR Ring RF system shall include an h=630 system to perform the 1:2 bunch splitting required to produce store bunch patterns [5.9].  |
F-HSR-RF.3 | The HSR Ring RF system shall include an h=1260 system to perform the 2:4 bunch splitting required to produce store bunch patterns [5.9]. |
F-HSR-RF.4 | The HSR Ring RF system shall include an h=2520 system to perform initial bunch length compression to achieve the required store bunch lengths [5.9]. |
F-HSR-RF.5 | The HSR Ring RF system shall include an h=7560 system to perform final bunch length compression to achieve the required store bunch lengths [5.9].  |
F-HSR-RF.6 | Normal conducting HSR Ring RF systems shall be located in the IR-4 straight section.  |
F-HSR-RF.7 | Superconducting HSR Ring RF systems shall be located in the IR-10 straight section.  |
F-HSR-RF.8 | The Longitudinal Impedance Budget sum of all the longitudinal narrowband impedances from all the HSR Ring RF and Crab RF systems shall not exceed a level which comprimises the machine parameters given in the MPT. |
F-HSR-RF.9 | The transverse Impedance Budget sum of all the transverse narrowband impedances of all HSR Ring RF and Crab RF systems shall not exceed a level which comprimises the machine parameters given in the MPT. |
F-HSR-RF.10 | The HSR Ring RF system shall provide controls and diagnostics for all cavity and system functionality.  |
F-HSR-VAC.1 | The HSR vacuum system shall be modified to accommodate worst case dynamic heat load (0.72 A beam with 290 bunches at 19.8·1010 ppb). |
F-HSR.16 | The HSR collimation system shall be flexible enough to operate with the full range of HSR species at all energy ranges. |
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