Requirement Details
Electron Ion Collider
P-ESR-VAC.11
Requirement details, history, relationships and interfaces associated with requirement P-ESR-VAC.11
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Record Date: 12/06/2024 11:13 | |||
Identifier: | P-ESR-VAC.11 | WBS: | 6.04.05 |
Date Modified: | TBD: | FALSE | |
Status Date: | Status: | Approved | |
Description: | The vacuum chamber shall absorb synchrotron radiation and carry away the power. 10 MW | ||
Comments: |
Record Date: 12/06/2024 11:10 | |||
Identifier: | P-ESR-VAC.11 | WBS: | 6.04.05 |
Date Modified: | TBD: | FALSE | |
Status Date: | Status: | In Process | |
Description: | The vacuum chamber shall be able to absorb synchrotron radiation and carry away 10 MW of power. | ||
Comments: |
Parents | |
F-ESR-VAC.4 | The vacuum chamber and all its components shall be designed to withstand a total synchrotron radiation load of 10 MW, considering the uneven linear load particularly related to the super-bends. |
F-ESR-VAC.5 | The vacuum chamber material shall be chosen such that the SR power can be intercepted by the arc chambers and in addition good radiation shielding will be provided. |
F-ESR.2 | The minimum dynamic aperture shall be achieved in two optics configurations (60 and 90 degrees betatron phase advance per FODO cell) at all operational beam energies as per [5.9], and with one and with two low-beta insertions. |
F-ESR.1 | The ESR lattice shall provide a minimum dynamic aperture of 10 sigma w.r.t Gaussian electron beam distribution in all three dimensions, horizontal, vertical, and longitudinal. With the vertical emittance being half the horizontal design emittance. |
F-ESR.3 | The ESR shall support two low-beta insertions (colliding beam interaction regions) at IRs 6 and 8. |
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