User Access and Beamline Development
description
Transcript of User Access and Beamline Development
1 BROOKHAVEN SCIENCE ASSOCIATES
User Access and Beamline Development
John HillDirector, NSLS-II Experimental Facilities Division
NSLS-II User WorkshopJuly 17, 2007
2 BROOKHAVEN SCIENCE ASSOCIATES
Introduction
• NSLS-II has the capacity for at least 58 beamlines that will meet the needs of a diverse, and vibrant, user community.
• Beamline development at NSLS-II needs to ensure that the appropriate capabilities are present at the facility:• We need to develop, with the users, a coherent, facility-wide plan
that is responsive to the needs of the various communities. To be reviewed by our advisory committees.
• User access policy needs to ensure that the facility is as scientifically productive as possible
3 BROOKHAVEN SCIENCE ASSOCIATES
Guiding Philosophy
• NSLS-II has overall responsibility for operating all beamlines, ensuring that they are well integrated into the facility and with missions that are consistent with the overall strategic plan for the facility.
• The key to the delivery of outstanding science is rigorous peer review that is fair, clear, expedient and sensitive to the needs of users. The predominant mode of user access on all beamlines will be through peer-reviewed proposals, typically using the GU program of the facility.
• All beamlines will be well staffed (~ 6 FTEs) and resourced at a level appropriate with maintaining a high-level of technical and scientific quality.
4 BROOKHAVEN SCIENCE ASSOCIATES
Possible Insertion Device Usage at NSLS-IIID TYPE Device Beamline type
1 5m U19 IXS: 0.1 meV + 1 meV2 8m RF -3 5m U19 IXS: 50 meV4 8m RF -5 5m EPU 45 Soft x-ray: Scattering and RIXS6 8m EPU100 PES and LEEM/PEEM7 5m U19 Optics R+D and Machine diagnostics8 8m DW OPEN9 5m EPU 45 Soft x-ray: coherent scattering and imaging10 8m DW White beam Laue (time resolved)11 5m U19 Nanoprobe12 8m U19 Hard x-ray Coherent scattering/SAXS13 5m U19 Hard x-ray imaging14 8m U19 Liquid interfaces/GISAXS + SAXS15 5m U19 High Magnetic Field16 8m DW Powder + Powder17 5m U19 Microdiffraction18 8m DW Topography19 5m U19 Resonant scattering and surface diffraction20 8m DW EXAFS + EXAFS21 5m U19 Time resolved materials science22 8m OPEN OPEN23 5m SCW High energy: PDF24 8m DW OPEN25 5m SCW High energy: High Pressure26 8m DW PX 1, 227 5m U19 PX 328 8m DW X-ray Footprinting29 5m U19 PX 430 8m Injection -
Physical Science Beamlines
• 6 project beamlines in red
• 16 MIE beamlines in blue
Estimate that these 22 beamlines could accommodate ~ 1300 users
Life Science Beamlines
• 5 other funded beamlines
Three straights left unassigned
5 BROOKHAVEN SCIENCE ASSOCIATES
Possible Bending Magnet Usage at NSLS-IIBM Source
1 large IR-BM2 soft BM3 std IR BM4 3-pole wiggler5 3-pole wiggler6 3-pole wiggler7 large IR-BM8 3-pole wiggler9 std IR BM
10 3-pole wiggler11 3-pole wiggler12 3-pole wiggler13 large IR-BM14 soft BM15 std IR BM16 3-pole wiggler17 soft BM18 soft BM19 large IR-BM20 3-pole wiggler21 std IR BM22 3-pole wiggler23 3-pole wiggler24 3-pole wiggler25 large IR-BM26 3-pole wiggler27 std IR BM28 3-pole wiggler29 3-pole wiggler30 3-pole wiggler
Beamline typeMagnetospectroscopy and time-resolved far-IR
OPENmid-IR microprobe-1
R+D beamlinesingle crystal scattering
SXMCDfar-IR spectroscopy
SAXSmid-IR microprobe-2
microprobemicrodiffraction
hard x-ray full field imagingFar-IR 2
soft x-ray full field imagingmid-IR imaging
powder diffractiontender-EXAFS
soft x-ray spectroscopy/NEXAFSmid-IR, far-IR high P
hard EXAFSUVU CD
hard EXAFS
radiometryDEI, X-ray optics
topographyPX
far-IR microprobePX
mid-IR microprobe 2PX
“Beamline types” in red are beamlines to be moved over from NSLS
Note: there is not always a 1:1 correspondence with beamlines at NSLS and NSLS-II. In some cases, equipment may be taken from multiple beamlines.
6 BROOKHAVEN SCIENCE ASSOCIATES
NSLS-II Strawman Capabilities
Category IDs BMs Total IDs BMs TotalA 1 8 9 3 7 10B 4 4 8 0 9 9C 4 1 5 0 8 8D 7 1 8 3 5 8E 5 4 9 3 8 11F 3 8 11 2 7 9G 6 3 9 2 8 10
30 29 59 13 52 65
hard matter/strongly correlated scatteringpowder/single crystal/high P/optics
Imaging/micro-probemacromolecular crystallography
TypeIR/UV/Soft x-ray spectroscopy
x-ray spectroscopysoft matter/biophysics scattering
NSLSII NSLS
Possible distribution among beamline categories (and compared to existing NSLS)
N.B. NSLS-II distribution includes some canting (principally, damping wigglers) and also leaves 3 straights unassigned.
7 BROOKHAVEN SCIENCE ASSOCIATES
Beamline Development
• 6 Insertion Device beamlines to be built as part of the construction project
• ~20 dipole beamlines to be moved over from existing NSLS, under NSLS-II early operations funding
• Funding for ~15 BES-relevant insertion device beamlines to be pursued via separate Major Items of Equipment (MIE) DOE-BES funding
• Non-BES relevant beamlines funded by other sources
8 BROOKHAVEN SCIENCE ASSOCIATES
Beamline DevelopmentAll beamlines to be developed using Beamline Advisory Teams
•Small teams formed by submitting a Letter of Intent (reviewed by EFAC)•Propose scientific mission and technical requirements for beamline•Facility hires beamline staff, designs & builds beamlines•BAT meets every 6 months, working closely with the facility to advise them during design, construction, commissioning, and early operations•Represent a particular User community•Report to XFD Director
9 BROOKHAVEN SCIENCE ASSOCIATES
Letters of Intent
• The scientific case for the beamline.• The resulting technical requirements of the beamline.• How does it meet the needs of the user community?• How does it fit in with the overall usage of the facility?• What source does it need and why?• Team members and their expertise.
A brief proposal from the BAT that outlines the following:
Project beamline BAT LOIs will be due in January 2008
10 BROOKHAVEN SCIENCE ASSOCIATES
Criteria for Beamline Selection
• Excellence of scientific case and engagement of user community in its articulation
• Best-in-class performance, with characteristics well matched to NSLS-II source (meets or exceeds relevant world-wide benchmarks, based on realistic simulations)
• Technical feasibility of reaching scientific objectives• Alignment with overall utilization of facility• Quality of team
11 BROOKHAVEN SCIENCE ASSOCIATES
Beamline Advisory TeamsSubmit LOI
DecisionEFAC
Conceptual Design
Feedback
Technical Design
Beamline Readiness Review
Construction begins
Facility review
Facility hires made
Facility review
Commissioning begins
Funding Decision
12 BROOKHAVEN SCIENCE ASSOCIATES
Beamline Operations
• Facility does all beamtime scheduling• At operations, a Science Advisory Committee will be formed to
advise on facility and beamline operations• All NSLS-II beamlines will be reviewed annually by facility staff to
rate each in the areas of technical quality, staffing factors and productivity. The metrics for these evaluations will be public and transparent. Results will be reviewed by the SAC.
• Full reviews of each beamline will be conducted by the SAC on a triennial basis
13 BROOKHAVEN SCIENCE ASSOCIATES
General User Access
• Every NSLS-II beamline will have at least 80% GU time• Beamline scientists will write GU proposals• GU proposals can be one time or program (2 year)• Reviewed by committees of external scientists• Evaluation criteria include:
• Scientific Impact• Technique or Instrumentation Development• Industrial impact• National Security
14 BROOKHAVEN SCIENCE ASSOCIATES
Rapid Access
• An important component of the GU program will be rapid access for the high-throughput techniques
• Expected to be more important at NSLS-II with the reduced data-taking times and increase in the use of robotics
• Detailed RA mechanism may differ for different beamlines depending on technique
• Attention will be paid to minimizing any delays in the award of beamtime, and the barriers associated with proposal writing, while adhering to the basic principle that all beamtime allocations within the GU are peer-reviewed
15 BROOKHAVEN SCIENCE ASSOCIATES
Partner Users• In addition to the BATs, the facility may also partner with various external Partner Users•PUs are expected to bring additional capabilities to the facility, including contribution to
operations, instrumentation, staffing, etc, and make them available to the GU community•A PU might accomplish one or more of the following:
• Develop a new capability or new instrumentation• Develop a beamline or dedicated end station• Build a new user community• Engage in education and/or outreach• Perform other activities outside the scope of the NSLS-II General User (GU) Program and deemed by
SAC to be valuable to the NSLS-II user community
16 BROOKHAVEN SCIENCE ASSOCIATES
Partner Users• The level of investment of a PU may rise to the level of developing and operating an
entire beamline. Such PUs will be held to the same standard of operating support as facility beamlines
• PUs may negotiate beamtime to allocate to their members, commensurate with the level of their investment
• PU may choose to apply this allocation across several beamlines to access a range of capabilities
• Total PU beamtime on any one beamline will be a maximum of 20%• The PU may use the GU program for allocating their beamtime, or some other facility-
approved method• PU members can also apply for GU time on any beamline, including those that they are
involved in
17 BROOKHAVEN SCIENCE ASSOCIATES
Summary
• NSLS-II beamlines will be developed in concert with the user community through Beamline Advisory Teams and Partner Users
• They will be well staffed and maintained at state-of-the-art • Access will be through peer-reviewed proposals• This is your facility. This is your chance to define the suite
of beamlines and capabilities you would like to see. We look forward to hearing from you!