Installation at Isolde (and costs)

1. TSR @ Isolde Installation at Isolde (and costs) TSR at Isolde workshop CERN, 29/30 October 2012 Erwin Siesling

2. TSR @ ISOLDE TSR Max Planck Institute Heidelberg TSR@ISOLDE LOI endorsed Jan 2011 TDR submitted Jan 2012 (K. Blaum, Y. Litvinov) CERN BE TSR Integration Study Mandate Aug 2012

3. Layout Jura Saleve

4. Building position 10m restriction F/CH border F courtesy Didier Voulot CH

5. Jura (west) side 24.6m 23.3m Proposed layout to fit the TSR and experiments at the west side

6. Jura (west) side Total surface TSR floor: 24.6x23.3m=573m2 of which 20x20m (400m2) reserved for the ring (final position of the ring within the building to be defined) Level of the center of beam at 1.77m above TSR floor Total surface available basement: 12mx24.6m=295m2 to house power-supplies and additional racks Difficulties: Construction above the CERN service tunnel (which cannot be re-routed): TSR Floor approx. 4 m above the HIE Linac floor

7. Saleve (east) side 21.8 m 11.8 m 33.6 m 28.2 m F CH Proposed layout to fit the TSR and experiments at the east side

8. Saleve (east) side Total surface TSR floor: 747m2 of which 20x20m (400m2) reserved for the ring (final position of the ring within the building to be defined) TSR floor at same level as the HieLinac floor Level of the center of beam at 1.77m above TSR floor Difficulties: Basement to add to house the necessary power-supplies and equipment Adaptation of existing buildings Take in account the possible removal of the cold box, etc from building 199 and necessary access to the experimental hall: removal of the Cryo Modules, etc. Passages to be kept free 34.9 m 22.6m Requires construction (about 100m2) within the restricted area of 10m from the French border 28.9m

9. final TSR building Jura (west) side 30m 25m 10m (7m between floor and crane hook) Proposed layout to fit the TSR: Installation above the CERN service-tunnel Tilted beamline coming up from the machine. Building cost & design study: Eliseo Perez-Duenas GS/SE 4.1m above Isolde hall floor

10. TSR Building Courtesy: Eliseo Perez-Duenas GS/SE

11. Surface & Weight Total surface TSR floor: 25x30m=750m2 of which 20x20m (400m2) reserved for the ring (final position of the ring within the building to be defined) TSR floor 4.1m above HieLinac floor Level of the center of beam at 1.77m above TSR floor Total surface available basement: 13.2mx30m=396m2 to house power-supplies and additional racks (total 29m length floor space for the TSR equipment and 7m for the e-target equipment + 10 standard 19’’ racks and ECOOL HV cage 4x4m2) Basement only under outer side of the service tunnel TSR Building surface

12. Surface & Weight Weight in each corner: Dipole: iron 12t + coil 0.8t Quadrupole: iron 1.9t + coil 0.36t Sextupole: 0.65t Concrete bases 3.2t (to be verified, unknown) Each corner: 2x12.8t + 5x2.26t + 3x0.65t + 2x3.2t= 45.25 ton Electron cooler: ECOOL magnet 6t ECOOL supporting structure 4t (to be verified, unknown), total 10ton Total TSR floor weight: 4x45.25ton=181ton 1 Electron cooler Total: 191 ton (Exclusive experiments, RF resonator and 19 standard 19’’ racks. Example: HELIOS magnet 12ton) TSR floor weight

13. Transfer lines Standard HIE Isolde parts courtesy Fredrik Wenander / Didier Voulot

14. TSR Integration TSR integration: - TSR building, TSR cooling station & compressed air, TSR transformer pit TSR cooling station TSR building TSR transformer Control room

15. TSR costs Building costs: Estimate 3.85 MChf The civil engineering study is ongoing (Eliseo Perez-Duenas, CERN, GS/SE) 20t Overhead crane: not less than 300kChf (25 m wide, 20t, over 30m) (Caterina Bertone, CERN, EN/HE) Water station: 1MW 27C rough estimate 700kChf (Yannic Body, CERN, EN/CV) A few elements need 20C: some turbo pumps at inj and ej which could run at 27C and additional fan cooling, however, the cryo-compressors need 5kW of 20C water and the high power solenoid for the e-cooling as well Transfer Line: (Injection line 1385kChf, Ejection line 915kChf = 2.3MChf) - preliminary Will be re-calculated in case of the use of standard HIE Isolde parts (HEBT lines) (Fredrik Wenander, CERN, BE/ABP) Infrastructure: ventilation, electricity – no numbers yet – inventory and requirements study ongoing (TSR Integration study group) FTE’s – no numbers yet.

16. TSR integration study In it's June meeting the CERN Research Board gave outline approval to the TSR@Isolde project. This outline approval requests that CERN undertakes an integration study to identify early the requirements for the initial installation together with the necessary modifications and upgrades needed to eventually be able to run the TSR as a standard CERN facility. A TSR Integration Study Working Group has been put in place to make an inventory of the actual components of the storage ring, its equipment and necessary infrastructure. Fredrik Wenander • Inventory equipment • Initial estimates for infrastructure (not detailed) • Brief study for each system in order to be integrated at CERN • Report ready by Q3 2013 Emiliano Piselli Erwin Siesling

17. TSR integration study Magnet kickers Slow power supplies Beam diagnostics Vacuum E-cooler Alignment RP Magnets Septum and kickers Alignment RF Controls Application programmes Injection and extraction lines General infrastructure Experimental line General layout at CERN Connection to HIE-ISOLDE Dismantling, transport, reassembly

18. TSR integration study

19. MPIK : KLAUS BLAUM, MANFRED GRIESER, YURI LITVINOV GS/SE : DANIEL PARCHET, ELISEO PEREZ-DUENAS EN/MEF : STEPHANE MARIDOR BE/ABP : FREDERIK WENANDER BE/OP : DIDIER VOULOT PH/SME : YORICK BLUMENFELD, MARIA BORGE BE/RF : MATTEO PASINI, MATTHEW FRASER EN/CV : YANNIC BODY EN/HE : CATERINA BERTONE EN/EL : RENE NECCA Acknowledgement