ITk Pixel Outer Barrel: PST Interfaces

1. ITk Pixel Outer Barrel:PST Interfaces D. Alvarez Feito1; S. Michal2 1CERN EP-DT; 2Université de Genève CERN, 11th January 2019

2. Outer Barrel: Support Conditions • OB supported directly by the PST • PST rails for insertion and final supports (not enough space for separate supports and rails) • Current scheme assumes 4 support points • It might be needed to be increased to 8 (in the same phi location)

3. Outer Barrel: Phi Position of Support Points • Two possibilities for the phi-position of the support points • Option 1: Horizontal line (i.e. 0° and 180°) • Equivalent to final support points of current Pixel Detector • Higher PST deflection • Single design for OBH1 and OBH2 • Simplify integration scheme & tooling (no need to change support conditions after completion of OBH) • Possible interference with cooling pipes from inclined rings

4. Outer Barrel: Support Conditions • Two possibilities for the phi-position of the support points • Option 2: Bottom part of the (i.e. -45° and -135°) • Equivalent to insertion rails of current Pixel Detector • Lower deflection of PST • Different design for OBH1 and OBH2 • More complex service routing • Change of support conditions for at least OBH2 during integration (more complex tooling) Due to the layout, -45°/-135° cannot be implemented. However, approximately -38/-142° and -52°/-128° could be achieved

5. Outer Barrel: Support Conditions • Two possibilities for the phi-position of the support points • Option 2: Bottom part of the (i.e. -45° and -135°) • Equivalent to insertion rails of current Pixel Detector • Lower deflection of PST • Different design for OBH1 and OBH2 • More complex service routing • Change of support conditions for at least OBH2 during integration (more complex tooling) Due to the layout, -45°/-135° cannot be implemented. However, approximately -38/-142° and -52°/-128° could be achieved

6. Outer Barrel: Z Position of Support Points • Position in Z will depend on the service scheme and position of PP0s

7. Outer Barrel: Other Open Points • Overall concept of support points: Wheels vs Sliders • Implementation of Z-stoppers • Adjustment → Very limited space to implement solution for adjustment after insertion (including load monitoring). Pre-alignment before insertion seems more realistic. • Connection to ECs (for insertion)

8. Questions?

9. Additional Material

10. Outer Barrel: Overall Mechanical Concept Inclined Units (Half Layer Shells + Inclined Half-Rings) Half layers (2 x Inclined Units + Longerons) CFRP Half Layer Shells to support the Inclined Half Rings and route the Type-0/Type-1 services and cooling manifold towards Longerons are directly connected to the Half layer Shells due to the lack space for separate flanges

11. Outer Barrel: Overall Mechanical Concept Outer Barrel Halves (OBH1&2) (3 x Half Layers + Intermediate Supports + Service Support Shells) CFRP Intermediate supports to connect the three layers together at two locations in Z (produced in several parts to ease the service integration) Service support shells to integrate the Type-1 services and test them in advance D. Grondin N. Emeriaud

12. Outer Barrel: Layer Integration x 2 (OBH1; OBH2) Rings & Type-0 Services not shown for simplicity!

13. Outer Barrel: Outer System Integration • The two OB halves (OBH1 & OBH2) are integrated around the ECs + IST as foreseen in the original concept. OBH2 EC1 IST EC2 OBH1

14. Outer Barrel: Outer System Integration • The two OB halves (OBH1 & OBH2) are integrated around the ECs + IST as foreseen in the original concept. OBH2 EC1 IST EC2 OBH1

15. Outer Barrel: Outer System Integration • The two OB halves (OBH1 & OBH2) are integrated around the ECs + IST as foreseen in the original concept. OBH2 ECs OBH1