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Steve DierkerAssociate Laboratory Director for Photon Sciences
Project Advisory CommitteeFebruary 8-9, 2011
Photon Sciences Portfolio & Future Planning
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NSLS Facility
2.8 GeV300 mA
800 MeV1000 mA
• Operating since 1982• Continued good reliability (95+%)
Operating BeamlinesVUV-IR X-
ray TotalFacility 6 15 21PRT 5 33 38ALL 11 48 59
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NSLS Continues to be Very Productive
•Accelerators are aging but continue to operate with high reliability•Operations funding $39M in FY10 but $36.5M in FY11 under CR•142 FTEs on operations funding, 20 more on other funds•~ 2200 users/year and more than 900 publications/year•Premier publications (impact factor > 6) represent ~25% of total
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Chemical Sciences Materials SciencesLife Sciences Geosciences and EcologyApplied Science and Engineering Optical/Nuclear/General PhysicsUnknown
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• Science Program Goals:1) Very fast ramp up of science program2) Continuous service to user community3) Dramatically advanced capabilities and high productivity•Transition to NSLS-II operations involves evolution from NSLS operation and NSLS-II construction to NSLS-II operation, all the while continually hosting a large user community and renewing the scientific facilities•Must develop a substantial number of beamlines and transition staff and users from NSLS ops to achieve maximum scientific productivity as soon as possible•Requires coordinated planning and an integrated staffing plan for all activities•Draft NSLS-II User Access Policy issued last March• Expect to finalize at upcoming April SAC meeting•Issued Beamline Development Policy and solicited proposals for NSLS-II beamlines last March• 2011 call will be issued this month
Science Capabilities at CD-4 and Beyond
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Beamline Development Process
Letter of
Intent
Submitted by Proposal Team
BeamlineDevelopment
Proposal
Beamline Development Process
BeamlineProject
Execution Plan
Submitted by Beamline Development Group
Developed by External Group
if Type II
Developed by NSLS-II if Type I
Declined Feedback to Proposal Team
Letter of
Intent
Submitted by Proposal Team
BeamlineDevelopment
Proposal
Beamline Development Process
BeamlineProject
Execution Plan
Submitted by Beamline Development Group
Developed by External Group
if Type II
Developed by NSLS-II if Type I
Declined Feedback to Proposal Team
Letter of
IntentSubmitted by Proposal Team
BeamlineDevelopment
Proposal
Beamline Development Process
BeamlineProject
Execution Plan
Submitted by Beamline Development Group
Developed by External Group
if Type II
Developed by NSLS-II if Type I
Declined Feedback to Proposal Team
The Letter of Intent (LOI) identifies the beamline Proposal Team that intends to submit a Beamline Development Proposal (BDP) and provides a brief description of the science program and type of beamline
The BDP describes the scientific programs that such a beamline would serve and the main technical requirements that the beamline must meet to enable those programs(10 pages)
The Beamline Project Execution Plan (BPEP) describes the membership of the Beamline Advisory Team (BAT), the plan for formation of the Beamline Development Group (BDG), the plan for managing and executing the design and construction of the beamline, the pre-conceptual technical design, the preliminary cost and schedule estimates, and a commitment for the necessary funding
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Beamline Project Execution Plan
• Approval of a BDP authorizes development and submission of a BPEP• The BPEP presents the plans for beamline project execution, including the scientific need and
justification; project objectives and description; management systems; environment, safety, health, and security; resource planning; transition to operations; project controls (management, baseline, and change control); and reporting
• Upon approval of the BPEP, a Beamline Development Agreement will be executed between NSLS-II and the BDG that outlines the rights and obligations of the BDG and assigns a beamport and experimental floor space for use by the beamline
• Some of the required elements include:• Beamline Advisory Team membership• Staffing plan for Beamline Development Group• Management Plan• Pre-conceptual Design• Preliminary Cost and Schedule Estimate• Funding Commitment
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2010 Call forBeamline Development Proposals
•Scope• Any area of science• Any beamline type – ID, BM, 3PW, IR• Independent of funding source or implementation approach (i.e., new, reused, who
builds – Type I: Photon Sciences, Type II: external group)•Science case and technical requirements•Schedule
• Issued on March 26• Beamline Development Informational Meeting held on April 14• Letters of Intent received on April 26• Beamline Development Proposals received on June 21• Reviewed by Science Advisory Committee & 7 Study Panels• Results announced Oct 4
•Future calls will be issued on an annual basis
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Beamline Development WorkshopsUser community organized 13 workshops with hundreds of participants• High Pressure Science, April 29-30, 2010• Coherent Diffractive Imaging, May 17-18, 2010• Nano Electron Spectroscopy, May 24, 2010• Chemical, Biological, & Condensed Matter Studies Using Ultrafast Pulses,
May 27-28, 2010• Integrated In-situ and Resonant Hard X-ray Studies, May 27-28, 2010• X-ray Absorption Spectroscopy and Related Techniques, June 1, 2010• Time-resolved Full-field X-ray Microscopy at Nano & Micro Scales, June 2,
2010• X-ray Scattering for Biological Applications at NSLS-II, June 2, 2010• Soft Matter Science and Liquid Scattering, June 3-4, 2010• Full-field Imaging Beamline at NSLS-II, June 4, 2010• Hard Inelastic X-ray Scattering, June 9, 2010• Soft Inelastic X-ray Scattering, June 11, 2010• Time-resolved X-ray Diffraction & Spectroscopy in Extreme Conditions, June
15, 2010
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Scientific Areas of Beamline Development Proposals
• 54 Beamline Development Proposals received by June 21, 2010
• 7 SAC Study Panels, consisting of 51 external scientists, were set up to meet at BNL and review these 54 proposals
SAC Study Panel Meeting Schedule:• Biological & Environmental Chemistry
Thursday-Friday, July 8-9, 2010• Materials Science
Monday-Tuesday, July 12-13, 2010• Advanced Eng. Materials Studies
Tuesday-Wednesday, July 13-14, 2010• Condensed Matter Physics
Monday-Tuesday, July 19-20, 2010• Structural Biology
Tuesday-Wednesday, July 20-21, 2010• Structural Chemistry & Catalysis
Wednesday-Thursday, July 21-22, 2010• Imaging & Microscopy
Thursday-Friday, July 29-30, 2010
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Existing and New Scientific User Communities
• These 54 Beamline Development Proposals cover a broad range of science areas and scientific user communities, including both existing and potentially new user communities in each of the science areas
Proposal Team Members•668 Total•421 Unique•43% current NSLS users
Existing Program
New Program
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Evaluation Criteria• Science Case: Does the research enabled by establishment of the proposed beamline have the potential to address important scientific and/or societal questions?
• User Demand: Is there evidence of significant interest, engagement, and support for the proposed beamline facility by the scientific community?
• Performance: Will the proposed beamline provide the performance necessary to fulfill its scientific mission, with characteristics well matched to the NSLS-II source?
• Technical Feasibility: Is achieving the proposed beamline capabilities technically feasible?• Quality of Proposers: Are the proposal team members experienced in the proposed field of research and technique and are they representative of the corresponding user community that would be served by the beamline?
• The Study Panels produced a Summary Assessment for each BDP containing specific comments on strengths and weaknesses and scores from 1 to 5 for each review criteria
Score Descriptor Scoring Guidelines1 Outstanding Exceptionally strong with negligible weaknesses2 Excellent Very strong with minor weaknesses that can be easily addressed3 Very Good Strong but at least 1 moderate weakness that would lessen impact4 Good Some strengths but at least 1 major weakness that severely limits impact5 Fair Very few strengths and major weaknesses that lead to very little impact
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BDP Review & Outcome
• Review Process• SAC Study Panel evaluations of written proposals & oral presentations, based on:
– Science Case, User Demand, Performance, Feasibility, Quality of Proposal Team• SAC discussed all BDPs and sought a balanced overall assessment, based on:
– Study Panel reports– balance of techniques and science areas
• Outcome:• 31 Type I BDPs approved, 3 Type II BDPs approved, 20 Type I BDPs not approved
• “Approved” in “mission need / CD-0” sense; funding is not assured• Next Steps:• During September and October, we prepared preliminary cost estimates, with a common basis
of estimate, and defined initial and mature scope, for the approved Type I BDPs that were most promising for receiving near term funding
• In November, we discussed beamline recommendations with BES based on results from SAC review and preliminary cost estimates
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34 Approved Beamline Development ProposalsAcronym Title Spokesperson Type
4DE 4-Dimensional Studies in Extreme Environments Donald J. Weidner, Stony Brook U. 1ABS A Highly Automated Instrument for Static X-ray Scattering Measurements of Biological Molecules in Solution Lin Yang, BNL 1AIM Advanced Infrared Microspectroscopy Lisa Miller, BNL 1AMX Flexible Access Macromolecular Crystallography at an Undulator Beamline Dieter Schneider, BNL 1BMM Hard X-ray Abs. Spectro. & Diffraction - Beamline for Materials Measurements Daniel Fischer, NIST 2CDI Coherent X-ray Diffraction Ian Robinson, U. College London 1CMS Complex Materials Scattering Kevin Yager, BNL 1ESM Electron Spectromicroscopy for Fundamental Studies of the Physics & Chemistry of Materials Elio Vescovo, BNL 1FIS Frontier Synchrotron Infrared Spectro. Beamline Under Extreme Conditions Zhenxian Liu, Carnegie Institute 1FMX Frontier Macromolecular Crystallography at an Undulator Beamline Robert Sweet, BNL 1FXI A Superconducting Wiggler Long Beamline for Full-field Imaging Jake Socha, Virginia Tech 1HIX Hard X-ray - Inelastic X-ray Scattering Young-June Kim, U. of Toronto 1IRI Full-field Infrared Spectroscopic Imaging Lisa Miller, BNL 1ISR Integrated In-situ & Resonant Hard X-ray Studies Karl Ludwig, Boston U. 1ISS Inner-shell Spectroscopy Bruce Ravel, NIST 1IXD Powder Diffraction Beamline for In-situ Studies of Structural & Chemical Transformations Jianming Bai, U. of Tennessee 1LIX A High-brightness X-ray Scattering Instrument for Biological Applications Lin Yang, BNL 1
MET Infrared & THz Beamline for Magnetospectro., Ellips. & Dynamical Studies Larry Carr, BNL 1MID Dedicated Beamline for X-ray Instrumentation Development Jeff Keister, BNL 1MPP Materials Physics & Processing Jean Jordan-Sweet, IBM 1MXD Multiscale X-ray Diffraction Kenneth Evans-Lutterodt, BNL 1NYX NYSBC Microdiffraction Beamline Wayne Hendrickson, Columbia U. 2OFT At-wavelength Metrology & In-situ Figuring Konstantine Kaznatcheev, BNL 1QAS Beamline for In-situ Studies of Chemical Transformations by Combined, Synchronous, “Quick” X-ray Absorption & Scat Measurements Anatoly Frenkel, Yeshiva U. 1SIX Soft Inelastic X-ray Scattering Kevin Smith, Boston U. 1SM3 Correlated Single-crystal Spectroscopy & Macromolecular Crystallography Allen M. Orville, BNL 1SMI Soft-Matter Interfaces Ben Ocko, BNL 1SSS Soft X-Ray Spectroscopy & Scattering Joseph Dvorak, BNL 1SST Soft & Tender X-ray Spectroscopy & Microscopy Daniel Fischer, NIST 2TEC Time-resolved X-ray Diffraction & Spectroscopy Under Extreme Conditions Alexander Goncharov, Carnegie Inst. 1TES Tender Energy X-ray Spectroscopy Paul Northrup, Stony Brook U. 1XAS X-ray Abs. Spectroscopy for Biological, Environmental & Energy Sciences Mark Chance, Case Cent. for Syn. Bio. 1XFM X-ray Fluorescence Microprobe Antonio Lanzirotti, U. of Chicago 1XFP X-ray Footprinting Mark Chance, Case Cent. for Syn. Bio. 1
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Beamline Distributions(Project + Approved Beamlines)
Science Source
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Science Villages•Science Village concept has been widely advocated by scientific
community and we strongly support this concept• Idea is to co-locate beamlines likely to be utilized by a specific
scientific community, after satisfying physical constraints on beamline locations
•These co-located beamlines, along with nearby Laboratory Office Buildings (LOB), will serve as the foundation of “Science Villages”
•LOB in a Village may house ancillary instruments to provide off-line experimental capabilities for the community, as well as serve as a primary meeting place for colleagues & co-workers
•Staff and users at co-located beamlines in a Village may share beamline instrumentation and learn from each other’s experience and expertise
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Possible Science Villages at NSLS-II•Possible Science Villages aligned with LOBs:
• Condensed matter & materials physics (CMP)• Materials science & engineering (MSE)• Environmental & heterogeneous materials science (EHM)• Biology and soft matter science (BSM)• Chemical science and catalysis (CSC)
CMP
MSE
EHMBSM
CSC
43 beamlines•9 project (CSX, XPD, SRX dual)•34 approved24 Open Ports•6 Insertion Device straights•18 BM/3PW ports
Village Beamlines OpenCMP 11 4MSE 7 6EHM 6 6BSM 13 3CSC 6 5
•Distribution if all project and approved beamlines were built:
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NSLS & NSLS-II Beamline Portfolios
41 = 6 Project + SRX-2 + 31 Type I + 3 Type II
Experimental Technique NSLS BLs* NSLS-II BLsSPECTROSCOPY 22 11 Low-Energy Spectroscopy 6 3 Soft X-ray Spectroscopy 3 1 Hard X-ray Spectroscopy 9 5 Optics/Calibration/Metrology 4 2SCATTERING 31 22 Hard X-ray Diffraction 11 6 Macromol. Crystallography 10 5 Hard X-ray Scattering 7 8 Soft X-ray Scattering 3 3Imaging 9 8 Hard X-ray Imaging 5 6 Soft X-ray Imaging 2 0 Infrared Imaging 2 2TOTAL 62 41*Includes 3 Diagnostics/Instrumentation beamlines that provide only limited user support due to insufficient staffing
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Transferring NSLS SpectroscopyBeamlines & Programs to NSLS-II
Low-Energy SpectroscopyNSLS Beamline Operator NSLS-IIU2A Facility FISU4IR Facility (D&I) METU5UA Facility ESMU11 PRT: BNL Biology
U12IR Facility METU13UB PRT: BNL CMPMSD, Boston U, Columbia U ESM
Soft X-ray SpectroscopyNSLS Beamline Operator NSLS-IIU7A PRT: NIST, DOW, BNL Chemistry SSTU12A PRT: ORNL SSSX24A PRT: NIST SST
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Hard X-ray SpectroscopyNSLS Beamline Operator NSLS-IIX3B PRT: CWRU XAS
X10C PRT: Exxon QASX11A PRT: NRL (and others) QASX11B PRT: NRL (and others) QASX15B PRT: SBU, 9 others TESX18A Facility ISSX18B Facility ISSX19A Facility TESX23A2 PRT: NIST BMM
Optics/Calibration/MetrologyNSLS Beamline Operator NSLS-IIU3C PRT: LLNL, LANL, NST, SNL X8A PRT: LLNL, LANL, NST, SNL
X24C PRT: NRL MIDX27B PRT: BNL NNS MID
Transferring NSLS SpectroscopyBeamlines & Programs to NSLS-II
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Hard X-ray DiffractionNSLS Beamline Operator NSLS-IIX7B PRT: BNL Chemistry, GE IXDX10B PRT: Exxon MPPX13B Facility MXDX14A PRT: ONRL, UT, NJIT IXDX16C PRT: SBU IXDX17B1 Facility XPDX17B2 Facility 4DEX17B3 Facility 4DEX17C Facility 4DEX20A PRT: IBM MPPX20C PRT: IBM MPP
Transferring NSLS ScatteringBeamlines & Programs to NSLS-II
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Macromolecular CrystallographyNSLS Beamline Operator NSLS-IIX3A PRT: CWRU, Rockefeller U AMXX4A PRT: NYSBC NYXX4C PRT: NYSBC NYXX6A Facility AMXX12B PRT: BNL Biology FMXX12C PRT: BNL Biology FMXX25 Facility FMX
X26C PRT: BNL Biology, CSHL, SBU SM3X28C PRT: CWRU XFPX29A PRT: BNL Biology, CWRU AMX
Transferring NSLS ScatteringBeamlines & Programs to NSLS-II
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Hard X-ray ScatteringNSLS Beamline Operator NSLS-IIX6B Facility CMSX9 Facility SMI
X10A PRT: Exxon CMSX21 Facility ISR
X22B PRT: BNL CMPMSD, BNL CFN SMIX22C PRT: BNL CMPMSD, MIT, Rutgers U ISRX27C PRT: SBU, Exxon CMS
Soft X-ray ScatteringNSLS Beamline Operator NSLS-IIU4B Facility SSSX1B PRT: U of Illinois, TJNAF, Boston U SIXX13A Facility (D&I) CSX
Transferring NSLS ScatteringBeamlines & Programs to NSLS-II
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Transferring NSLS ImagingBeamlines & Programs to NSLS-II
Hard X-ray ImagingNSLS Beamline Operator NSLS-IIX2B Exxon FXIX15A FacilityX19C PRT: SBUX26A PRT: CARS, BNL Env. Sci. XFMX27A Facility XFM
Soft X-ray ImagingNSLS Beamline Operator NSLS-IIX1A1 PRT: BNL CFN & CMPMSD, SUNY Plattsburgh X1A2 Facility (D&I)
Infrared ImagingNSLS Beamline Operator NSLS-IIU2B Facility AIMU10B Facility IRI
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Funding Opportunities for Beamline Development Beyond the Project
• DOE-BES• “NEXT” MIE (“NSLS-II Experimental Tools”)
• 5-6 ID beamlines• Preliminary Cost Range: $50M to $90M
• NEXT-II MIE: 5-6 ID beamlines to follow NEXT• NxtGen: BM/3PW beamlines w/ early ops funding
• NIH• Committed $45M to fund construction of 4 ID beamlines
• $12M awarded to NSLS-II in FY10 (ARRA) to design & construct undulators• $33M in President’s FY11 budget request for beamlines
• DOE-BER• Holding workshop on May 9-11 on the impact of new and planned DOE national user facilities
in the field of structural biology• Five DOE Labs invited: ORNL for SNS, SLAC for LCLS and LCLS-II, LBNL for soft-x-ray FEL, ANL
for APS upgrade, and BNL for NSLS-II• NSF
• Held discussions with program managers – ongoing effort
CD-0 for NEXT approved May 2010
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NEXT Beamlines
Based on peer review of 2010 Beamline Development Proposals by Science Advisory Committee and discussions with DOE-BES, the following six beamlines have been selected for NEXT MIE project:
Acronym TitleSMI Soft Matter InterfacesESM Photoemission-Microscopy Facility for Fundamental
Studies of the Physics and Chemistry of MaterialsSIX Soft Inelastic X-ray ScatteringISS Inner Shell Spectroscopy ISR Integrated In-Situ and Resonant X-Ray StudiesFXI Full-field X-ray Imaging from Microns to Nanometers