ODIN Project at ESS: Status & Perspectives

1. ODIN:Optical and Diffraction Imaging with Neutrons at the ESSStatus and perspectives of the ODIN Project PSI:M. Morgano, M. Strobl TUM: E. Calzada, M. Lerche, M. Schulz

2. Work units and outline • Management and integration • Neutron Transport System • Heavy shutter • T0 chopper • Chopper system • Cave and hutch • Motion controls and electrical engineering • White beam detector • ToF detector • Shielding Imaging and Engineering STAP Meeting, online

3. Work units and outline • Management and integration • Neutron Transport System • Heavy shutter • T0 chopper • Chopper system • Cave and hutch • Motion controls and electrical engineering • White beam detector • ToF detector • Shielding Imaging and Engineering STAP Meeting, online

4. Work units and outline • Management and integration • Neutron Transport System • Heavy shutter • T0 chopper • Chopper system • Cave and hutch • Motion controls and electrical engineering • White beam detector • ToF detector • Shielding • Timeline • Budget Imaging and Engineering STAP Meeting, online

5. 1. Management Technical Annex (TA) Memorandum of Understanding (MoU) In-Kind Agreement (IKA) contract Among all the partners. (ESS+PSI+TUM) Establishes the consortium and the scope Between in-kind partners and ESS. Sets forth the legal framework and the total budget for each institutions Attachment to the IKA. Details the timeline and the budget for the delivery of each items 2nd iteration of the content with ESS Legal part in parallel TUM: Done! PSI: text is ready, no problems foreseen Awaiting directors signatures Imaging and Engineering STAP Meeting, online

6. 1. Management • TG 3 Documentation under way (Risks, Hazards, PSS, Quality, etc.) • Manuel’s contract situation stabilized • Jan Hovind joined the team (more later) • Michael left March 15th 2019 • New hire: Aureliano Tartaglione will start June 1st 2019 • Handover foreseen for mid-June • (from ACTIONS list) “manage the gap of software development between 2020 and HC”  talks started with DMSC for extending the software in-kind project Imaging and Engineering STAP Meeting, online

7. 2. Neutron transport system • NBOA design contract signed in February • TG3 should happen in May-June (on time) • Technical specification document approved by ESS and by PSI quality and purchasing department • Tender to be published very soon • Detailed design foreseen to start ~2-3 months from now Imaging and Engineering STAP Meeting, online

8. 3. Chopper System • Chopper tender issued (pre-call for competition) and executed • one qualified company replied • VAT issue now resolved • invitation to participate i.e. prepare a bid executed by ESS (Thanks to: Mirko, Niko, Shane, Wiebke…) • First offer received and reviewed with only minor comments/suggestions • Proposal would use 4% contingency (of the allowed 10%) and is thus very close to our Scope Setting amount set in Oct. 2016! Imaging and Engineering STAP Meeting, online

9. 4. Cave and hutch • Jan Hovind (PSI) joined the ODIN team • CATIA v.6 course taken, CAD design to start soon • Communications with the relevant technical group started and no problems are foreseen Imaging and Engineering STAP Meeting, online

10. 5. Motion control and electrical engineering • No problems foreseen for the motion controllers. • Discussion ongoing with the relevant technical group. • Contact with Clara Lopez (ESS) for an integrated approach to electrical engineering with C-SPEC initiated Imaging and Engineering STAP Meeting, online

11. 6. Shielding • Shielding simulations started (incl. T0, heavy shutter) • ODIN joined the common guide shielding project @ 500k€ for a “turn-key solution” • Preliminary Cave design near completion (30cm Steel, 30cm concrete) cave roof may be subject to less stringent requirements and thus lead to cost and weight (!) savings Imaging and Engineering STAP Meeting, online

12. 7. Timeline: Installation • MS Project plan continuously developing • All 40+ Resources implemented as proposed/required by ESS • resources still have to be reassigned • Regular communication with ESS (Antonio Bianchi) • ODIN project plan can be integrated in ESS plan • Resource limitation will lead to re-iteration(s) • Currently the timeline seems doable Imaging and Engineering STAP Meeting, online

13. Cold Commissioning • Choppers: • Rotation, synchronization with source signal • change phases for BP1+2 (+- 0.5 guide width) and T0 • BM and Cd shutter in and out • Heavy Shutter: • in out re-measure guide position • All motors (incl. WFMC motion) • motion, backlash and calibration (direction and movement) • PSS functionality: • water, oxygen sensors, search buttons HV safety etc. • Utilities: • test of water, air, power Imaging and Engineering STAP Meeting, online

14. Hot Commissioning (no “early science”) • Choppers: • Synchronization with source signal incl. phase adjustment • test all 10 modes (six frame, 3 frame (4), natural (1+4)) • All BMs (incl. with Cd shutter in and out) • Heavy Shutter: • shielding (closed) and transmission repeatability (open) • PSS functionality: • warnings • inhibits • beam dump? • Detectors • test, test, test… Imaging and Engineering STAP Meeting, online

15. Hot Commissioning early Science • Too early to state a concrete experiment, but • Has to demonstrate ODIN’scapabilites • Show its advantage over steady state sources • Show its flexibility • Not only has to show ODIN’s potential but also have: • High societal impact (e.g. Life Science, Cultural Heritage, Energy Storage, Additive Manufacturing) Imaging and Engineering STAP Meeting, online

16. Hot Commissioning early Science • Too early to state a concrete experiment, but • Has to demonstrate ODIN’scapabilites • Show its advantage over steady state sources • Show its flexibility • Not only has to show ODIN’s potential but also have: • High societal impact (e.g. Life Science, Cultural Heritage, Energy Storage, Additive Manufacturing) • Obviously the last two points are competing with each other, here STAP advice would be highly appreciated (when the time comes…) Imaging and Engineering STAP Meeting, online

17. High societal impact early science • Nebra sky disk ca. 1600 BC (?) • First known depiction of the cosmos in the world • Puzzling style, unlike anything else in the world • NI could help confirm that the object is not forged Imaging and Engineering STAP Meeting, online

18. High societal impact early science • Vasa ship, Stockholm (1628) • Famous ship that sank in her maiden voyage • Recovered in 1961 • Constant preservation efforts • NI could help visualizing the corrosion of the bolts or the swelling in the wood Imaging and Engineering STAP Meeting, online

19. High societal impact early science • Morandi bridge, Genova (Italy), collapsed in 2018, killing 43 • Cause of the collapse unknown • NI can visualize the corrosion of rebar inside concrete Concrete Steel Corroded areas Imaging and Engineering STAP Meeting, online

20. Current foreseen timeline (will change) Imaging and Engineering STAP Meeting, online

21. 8. Budget • Budget creep • bunker base plates 5k€ • vacuum equipment (nozzles etc.)5-10k€ • light shutter 6k€ • Sprinkler System 5k€ • CATIA license 3-6k€/year • … • Budget adjustment • More personnel during installation • Phase 3-4 about 15 month longer 500k€ (incl. installation) • CE certification: 0-???k€ (under review as part of TA discussion) Imaging and Engineering STAP Meeting, online

22. Thank You!

23. In Bunker Integration Imaging and Engineering STAP Meeting, online

24. WFMC re-re-design, integration w/ DREAM Imaging and Engineering STAP Meeting, online

25. Conflict w/ DREAM resolved Imaging and Engineering STAP Meeting, online

26. In Bunker: WFMC, BP added, T0 position FOC 4 Beam Delivery System Heavy Shutter Bi-spectral Extraction System T0 Feedthrough FOC 3 FOC 2, BP 2 FOC 1, BP 1 WFMC 2 WFMC 1 Imaging and Engineering STAP Meeting, online