Requirement Details
Electron Ion Collider
F-EIS-RCS-MAG-SEXT.1
Requirement details, history, relationships and interfaces associated with requirement F-EIS-RCS-MAG-SEXT.1
CURRENT RECORD- ARCHIVE RECORDS
- RELATIONSHIPS
- INTERFACES
| Record Date: 12/06/2024 11:10 | |||
| Identifier: | F-EIS-RCS-MAG-SEXT.1 | WBS: | 6.03 |
| Date Modified: | TBD: | FALSE | |
| Status Date: | Status: | In Process | |
| Description: | The maximum integrated field strength of the FODO sextupoles needs to be sufficient to provide chromatic correction at 18 GeV. | ||
| Comments: | |||
No archive versions
| Parents | |
| G-EIS.2 | The EIS shall provide an electron beam having sufficient energy to meet the ESR beam requirements as set forth in [5.9]. |
| G-EIS.3 | The EIS shall provide an electron beam with the RMS bunch momentum spreads at extraction which meet the ESR beam requirements as set forth in [5.9]. |
| G-EIS.4 | The EIS pre-injector shall provide an electron beam to the ESR having a horizontal beam emittance which is compatible with operation of the ESR. |
| G-EIS.5 | The EIS pre-injector shall provide an electron beam to the ESR having a vertical beam emittance which is compatible with operation of the ESR. |
| G-EIS.6 | The EIS shall inject into the ESR at a rate of 1[Hz]. |
| G-EIS.7 | The EIS shall inject one bunch into the ESR whilst being able to provide 2 bunches per injection cycle. |
| G-EIS.9 | The EIS shall provide an electron beam to the ESR having the bunch charge at extraction to meet the beam requirements as set forth in [5.9]. |
| G-EIS.8 | The EIS shall provide an electron beam to the ESR having RMS Bunch lengths at extraction to meet beam requirements as set forth in [5.9]. |
| G-EIS.10 | The ESR bunch replacement pattern will be defined by 1.the required polarization pattern to be provided to the experiments, 2.decay rates and 3. The RF cogging limitations of the beam transfer between RCS and ESR. |
| Children | |
| P-EIS-RCS-MAG-S0.1 | The magnet shall have a single function. |
| P-EIS-RCS-MAG-S0.2 | < blank > |
| P-EIS-RCS-MAG-S0.3 | < blank > |
| P-EIS-RCS-MAG-S0.4 | < blank > |
| P-EIS-RCS-MAG-S0.5 | The magnet shall have a Sextupole field. |
| P-EIS-RCS-MAG-S0.6 | < blank > |
| P-EIS-RCS-MAG-S0.7 | The magnet shall have a normal field rotation. |
| P-EIS-RCS-MAG-S0.9 | < blank > |
| P-EIS-RCS-MAG-S0.10 | The magnet good field aperture dAx required shall be 15 (mm) |
| P-EIS-RCS-MAG-S0.11 | The magnet good field aperture dAy required shall be 5 (mm) |
| P-EIS-RCS-MAG-S0.12 | The magnet physical length of the magnet shall be <0.5 (m) |
| P-EIS-RCS-MAG-S0.13 | The magnet model length shall be 0.5 (m) |
| P-EIS-RCS-MAG-S0.14 | < blank > |
| P-EIS-RCS-MAG-S0.15 | < blank > |
| P-EIS-RCS-MAG-S0.16.1 | For the magnet at 3GeV Injection the Integrated grad field G shall be 15.3 T/m2.m |
| P-EIS-RCS-MAG-S0.17 | For the magnet at 3GeV Injection the peak ramp rate shall be 2.73(T/m2.S) |
| P-EIS-RCS-MAG-S0.18 | For the magnet at 3GeV Injection the magnet-to-magnet field variability shall be < 0.001 (%) |
| P-EIS-RCS-MAG-S0.19 | For magnet at the harmonic reference radius at the design energy of 18 GeV shall be 15 (mm) |
| P-EIS-RCS-MAG-S0.20 | For magnet at the Field at the reference radius and design energy of 18 GeV shall be 30.5(T.m^2) |
| P-EIS-RCS-MAG-S0.21 | The magnet the bore field shall have the following multipole content:Â |
| P-EIS-RCS-MAG-S0.21.1 | < blank > |
| P-EIS-RCS-MAG-S0.21.2 | < blank > |
| P-EIS-RCS-MAG-S0.21.4 | -10<b4<10 , 0<a4<0.2 (10^-4) |
| P-EIS-RCS-MAG-S0.21.5 | -10<b5<10 , 0<a5<0.2 (10^-4) |
| P-EIS-RCS-MAG-S0.21.6 | -10<b6<10 , 0<a6<0.2 (10^-4) |
| P-EIS-RCS-MAG-S0.21.7 | -10<b7<10 , 0<a7<0.2 (10^-4) |
| P-EIS-RCS-MAG-S0.21.8 | -10<b8<10 , 0<a8<0.2 (10^-4) |
| P-EIS-RCS-MAG-S0.21.9 | -10<b9<10 , 0<a9<0.2 (10^-4) |
This function not yet implemented.