NSLS-II Project Beamlines

1. NSLS-II Project Beamlines Qun Shen NSLS-II Experimental Facilities Director NSLS-II Project Advisory Committee Meeting February 8-9, 2011

2. Outline Baseline Scope, Cost, Schedule & Staffing Progress since December 2009 Baseline scope of project beamlines Design Progress on Beamlines Cost & Schedule Performance Risks & Mitigation Plans Look Ahead FY11 Goals Issues Conclusions

3. Experimental Facilities Scope • WBS 1.04: All phases of specification, design, procurement, installation, and commissioning of the six insertion device beamlines and instruments included in the project scope. Includes activities associated with planning the fully built-out facility, interacting with the user community. • WBS 1.06.03: Integrated testing and pre-operations • WBS 1.02.02: R&D in support of experimental facilities

4. Experimental Facilities Cost Baseline • Changes implemented since Dec. 2009: • PCR-10-127: transfer of HXN satellite building scope $1.56M to CFD • PCR-10-160: update of user instrument plans $149K • PCR-11-172: additional engineering staff $752K in FY11 for beamline design

5. Progress and Activities since Dec. 2009 • Completed hiring of beamline and R&D staff scientists and engineers • Completed initial high-energy-resolution optics test at the R&D beamline • Completed MLL deposition system assembly and initial MLL growth runs • Defined detailed scope and cost baseline for all six project beamlines • Finalized location assignments for all six project beamlines • Completed preliminary design reports of all six project beamlines, interacting with beamline advisory teams • Updated schedule baseline to include phased construction in coordination with beneficial occupancy and accelerator installation activities • Developed Experimental Facilities Beamline Readiness Plan for CD-4 • Continued to work with community and planned for additional beamlines

6. Experimental Facilities Staffing • NSLS-II Experimental Facilities is essentially fully staffed as planned • All 12 scientists (including Group Leaders) for project beamlines • All 6 mechanical engineers for project beamlines (3 since Oct.’09) • 2 additional beamline engineers (matrixed/MOU) for standard components • 4 additional engineering physicists and engineering support staff • Openings to be filled and upcoming positions: • Scientific associate for optics fabrication • Experimental controls • Manufacturer/procurement liaison engineer • Deputy Division Director

7. WBS 1.04 Experimental Facilities WBS 1.04 Experimental Facilities Q. Shen Interface & Beamline Manager – A. Broadbent 1.04.02-04, 06 Standard Components A. Broadbent 1.04.01 Experimental Facilities Management Q. Shen 1.04.05.01 Inelastic X-ray Scattering Y. Cai 1.04.05.02 Hard X-ray Nanoprobe Y. Chu 1.04.05.03 Coherent Hard X-ray Scattering A. Fluerasu 1.04.05.04 Coherent Soft X-ray Scatter. C. Sanchez-Hanke 1.04.05.05 Sub-um Resolution X-ray Spectroscopy J. Thieme 1.04.05.06 X-ray Powder Diffraction E. Dooryhee 1.04.07 Optics Laboratories Q. Shen • Experimental Facilities fully staffed as planned • Reporting and budgetary line responsibilities within NSLS-II project are unchanged in new Photon Sciences Directorate

8. Beamline Baseline Scope & Budget • Following independent Conceptual Design Review (Oct 2009), external Cost Review (Dec 2009), and extensive internal analyses and discussions with BATs (Jan-Feb 2010), baseline scope and cost were finalized for all six project beamlines (PCR-10-108) • Overall strategy was to optimize the experimental facilities scope across the six project beamlines within the current budget • Consolidated efforts/resources to ensure the baseline scopes are designed to • Deliver cutting-edge initial scientific capabilities for each of the six project beamlines • Enable new user science in initial phase of NSLS-II operations • Minimize risks within the baseline scope given current understanding of beamline optics and technology • The full conceptual designs of individual beamlines are retained, including both baseline scope and scope additions required for upgraded capabilities • Scope items that are not in the baseline are identified as upgrade options and will be implemented when future funds become available

9. Baseline Initial Science Capabilities

10. Six Beamlines in Construction Project • Inelastic X-ray Scattering (IXS) • Hard X-ray Nanoprobe (HXN) • Coherent Hard X-ray Scattering (CHX) • Coherent Soft X-ray Scattering & Polarization (CSX) • Sub-micron Resolution X-ray Spectroscopy (SRX) • X-ray Powder Diffraction (XPD) CSX 23-ID XPD 28-ID SRX 5-ID HXN 3-ID Note: Beamline locations have been finalized for the six project beamlines CHX 11-ID IXS 10-ID

11. NSLS-II Project Beamline Schedule • Phased installation based on locations of beamlines and availability of given pentant • Schedule has 3-week float between end of accelerator installation and start of BL activity

12. Project Beamline Design Progress Conceptual Design Dec. 2009 HXN First Optic Enclosure HXN Beamline HXN Beamline Preliminary Design Nov. 2010

13. Progress in Beamline Designs • All major interfaces with accelerator and facilities are finalized and captured in RSI documents, incl. insertion devices, front-end, satellite building, utilities, controls, etc. • All beamline synchrotron beam and Bremsstrahlung ray-tracing are completed • All major beamline components layouts/locations and design specifications are finalized, including experimental hutches, white-beam transport systems, optical systems such as mirrors and monochromators; Reference engineering designs needed for long-lead-time components are completed • End-station instrument engineering conceptual designs are developed and finalized • All six BATs have completed the reviews of beamline preliminary designs twice in FY10; Interactions at BAT review meetings very helpful in finalizing the PDRs • Internal safety reviews of the six beamlines have been completed by the Beamline Design and Safety Review Committee instituted by the ESH group • Preliminary design reports have been completed, & contain all up-to-date design information necessary to start long-lead-time procurements

14. Project Beamline Related Reviews & Workshops • Conceptual design cost review, Dec 14-15, 2009 • ASD/XFD Internal Review of ID Straight Section Space, Feb 23, 2010 • Weekly ASD/XFD Joint Informational Meetings, Mar-Sep 2010 • Design Review Meetings for HXN Satellite Building, Feb-Apr 2010 • Workshop on Scientific Computing and Data Acquisition, Apr 19-21, 2010 • Beamline Development User Workshops, April – June 2010 • Internal ESH Review of Draft Statement of Work on Radiation Enclosures, July 2010 • Internal Design and Safety Review for six project beamlines, Sep-Oct 2010 • BAT Review Meetings for six project beamlines, July - Sep 2010 • ASD/XFD External Review of Insertion Devices, Sep 15, 2010 • Experimental Facilities Preliminary Design Review, Oct 19-20, 2010 • Procurement kick-off meeting for long-lead-time beamline components, Dec 1, 2010 • Project beamline informational meetings, Dec 7-10, 2010 • Internal reviews of refined optical specifications, Jan-Feb, 2011

15. Hard X-ray Nanoprobe (HXN) Satellite Bldg • Stabability Specifications: • Vibration: VC-F minimum; goal to achieve VC-G • Temperature Inside hutch: • ±0.1 C (long term), ±0.05 C (~1 hr) • Temperature Outside hutch: • ±1.0C (long term), ±0.5 C (~4 hr) • Equilibrium temp reached in 30 minutes NIST Vibration Criterion • 100% design completed; following many design requirement and value engineering discussions • Construction contract awarded to LOB contractor

16. Long-Lead Time Components • Preliminary design of radiation enclosures completed; Technical specs and SOW being handed over to procurement • Preliminary designs of all major standard x-ray optical components are completed; Procurement documents (specs & SOW) progressing on schedule • Major endstation instruments conceptual and preliminary designs are well advanced – on schedule to be finalized as the designs progress

17. HXN Endstation with MLL-based Microscope • Conceptual design of HXN microscope completed; Preliminary design in progress • It includes innovative design features based on compact nanopositioning system MLL mount with compact laser interferometer system Development in collaboration w/ APS/CNM Rafael Lozano (GEM student working with E. Nazaretski) won 1st Place Award in Technical Presentation at 2010 GEM Annual Board Mtg

18. Overall Cost and Schedule Assessment • WBS 1.04 – Experimental Facilities (Dec 2010): • Cost: CPI is 1.02 on budget • Schedule: SPI is 0.98; slight improvement since October as work related to beamline preliminary designs were completed CPI = 1.02 SPI = 0.98

19. Risks and Mitigation Plans

20. Responses to PAC 2009 Review

21. FY11 Goals • Start procurement of long-lead-time beamline components, and start to closely monitor vendor performance • Complete preliminary designs of remaining beamline components and endstations • Advance nanofocusing and high-energy-resolution optics development in support of endstation designs of HXN and IXS beamlines • Conduct an external review to assess optics progress affecting design decisions at the end of FY11; Start procurement of advanced long-trace profiler instrument for optical metrology • Start hiring experimental controls engineers to work on endstation specific controls • Develop a formal CD-4 readiness plan and a detailed commissioning plan for transition to operations • Continue to work with community and coordinate & support development of additional beamlines at NSLS-II

22. Issues • Procurement process: many experimental facilities staff unfamiliar with DOE/BNL procurement documentation requirements and process • Started educational sessions with help from procurement group • Make use of examples and lessons-learned from experiences so far in the project • Plan to hire a manufacturing/procurement liaison engineer to assist technical staff in procurement process; PCR approved; Interviews ongoing • Unique endstation and optical designs for HXN, IXS, and XPD: require local engineering expertise and flexible production plan • Current plan is to design and assemble HXN and IXS endstations in-house, with a combination of vendor and in-house fabrications of different components • Also possible to outsource design effort as design-only contract to a vendor • XPD double Laue monochromator procurement will include development of a prototype as first article, with final system fabricated by vendor after acceptance of the prototype by NSLS-II

23. Summary • NSLS-II project beamlines fully staffed as planned, with additional mechanical engineers and engineering physicists hired to engage in designs of standard beamline components and special x-ray optics systems • Excellent progress made in beamline designs and optics development • Beamline preliminary designs completed and documented; Design maturity meets the requirement specified in Experimental Facilities Final Design Plan • Procurement plans for long-lead-time components in place; Staffing levels consistent with procurement strategies at beamlines • Issues and risks identified and mitigation plans developed • Transition from design into production phase in progress