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Optimizing IR Design for LHC Luminosity Upgrade Peter McIntyre and Akhdiyor Sattarov Texas A&M University.

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Presentation on theme: "Optimizing IR Design for LHC Luminosity Upgrade Peter McIntyre and Akhdiyor Sattarov Texas A&M University."— Presentation transcript:

1 Optimizing IR Design for LHC Luminosity Upgrade Peter McIntyre and Akhdiyor Sattarov Texas A&M University

2 To optimize an IR insertion: makes the lenses strong put them close to the IP Maximize gradients in quad triplet Inquire with experiments how close to go –~12 m providing transverse size <30 cm dia. Develop designs for quads, dipoles that can tolerate high radiation, high heat

3 Preliminary IR

4 Q 1 is in harm’s way, but moving closer actually reduces losses D1D1 Q1Q1 Multiplicity ~ f(  ) e -bt E particle ~ p t /  So energy flow concentrates strongly down the beam direction.

5 Design Q 1 using structured cable 6-on-1 cabling of Nb 3 Sn strand around thin-wall inconel X750 spring tube Draw within a thicker inconel 718 jacket Interior is not impregnated – only region between cables in winding Volumetric cooling to handle volumetric heating from particle losses

6 Ironless Quadrupole for Q 1 316 T/m 6 K supercritical cooling

7 Q 2, Q 3 : push gradient using block-coil Nb 3 Sn quadrupoles 334 T/m @6 K supercritical cooling (no iron) 390 T/m @2 K superfluid cooling (w/iron)

8 D 1 : levitated-pole dipole Cold iron pole piece, warm iron flux return. Cancel Lorentz forces on coils, pole steel. 8.7 T 4.5 K

9 This approach to IR elements opens new opportunities to optimizes IR optics Comparison to baseline IR: Reduce  * Reduce # of subsidiary bunch crossings Reduce sensitivity to error fields and placements Open space for another doublet to fully separate corrections in x, y. This is a work in progress. I need collaborators!

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