Report from DOE
Bruce StraussProgram Manager
Office of High Energy PhysicsOffice of Science, U.S. Department of Energy
LARP/CERN Hi-Lumi Joint MeetingNovember 18, 2011
OFFICE OF
SCIENCE
Outline
Budgets Program Highlights
– Cosmic Frontier– Intensity Frontier– Energy Frontier
LHC Program
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Context: HEP Strategic
PlanPlan is based on High Energy Physics Advisory Panel “P5” report
This is still the plan.
Implementation at the Energy and Cosmic Frontiers is clear
– End of Tevatron– LHC (+upgrades)– Dark Matter + Dark Energy
Implementation at the Intensity Frontier has been more challenging
– Funding levels at lower end of P5 Scenarios
– CR uncertainties + “no new starts”
– DUSEL difficulties
BUDGETS
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DOE HEP Budget Status
The FY 2012 DOE Request has been passed by both House and Senate
– Overall SC funding approx. $4.8B– House provides HEP funding at Request level, -7% for projects
(reductions restored in Research budgets to match Request)– Senate provides HEP funding at Request level but no funds for LBNE
construction (-$17M) : “project is not mature enough” However, currently under FY12 Continuing Resolution until Nov 18.
– No new starts for LBNE, Mu2e, and MicroBooNE. – Small amounts of funding were supplied to keep making progress
towards CD-1 for LBNE and Mu2e and CD-2/3 for MicroBooNE.
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FY 2010 Actual
FY 2011Actual
FY2012 Request
HEP 810,483 795,420 797,200
SC 4,789,288 4,842,700 5,416,114
FY 2012 HEP Budget Request
Description FY 2010 FY 2011FY 2012 Request FY12 - FY11
Proton Accelerator-Based Physics 438,369 439,512 411,207 -28,305
Electron Accelerator-Based Physics 30,212 24,663 22,319 -2,344Non-Accelerator Physics 97,469 87,657 81,852 -5,805Theoretical Physics 68,414 68,261 68,914 653Advanced Technology R&D 156,347* 175,327 171,908 -3,419Construction 0 0 41,000 41,000Total, High Energy Physics 790,811 795,420 797,200 1,780
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*Note: FY 2010 appropriation including SBIR/STTR was $810 million, so the total FY 2012 request is a reduction of $13 million from comparable FY 2010 funding
FY 2012 Budget Impacts
Lack of conceptual design funding for LBNE is the most serious issue
– Schedule for LBNE CD-1 is at risk if • FY 2012 CR is not lifted before calendar 2012, and/or• FY 2012 Senate language prevails in final Appropriation
Both House and Senate bills support DOE request for $15M to maintain de-watering and safe operations at Homestake Mine previously supported by NSF
– DOE and NSF are working together to keep minimal Homestake operations going during FY12 CR – “new starts” complication.
– If supported in final FY12 Appropriation, DOE will take over support for minimal Homestake operations for the rest of FY2012, pending DOE decisions on cost-effective options for underground science.
FY12 CR has contributed to delay in processing of DOE grant actions, waiting for budget approval. Grants up for renewal are receiving priority.
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Congressional Language – SC Priorities
Office of Science Priorities.—The Committee commends the Office of Science for identifying three clear priorities for basic scientific research:
—the discovery and design of new materials for the generation, storage, and use of energy, —better understanding of microorganisms and plants for improved biofuels production, and —the development and deployment of more powerful computing capabilities to take advantage of modeling and simulation to advance energy technologies and maintain U.S. economic competitiveness.
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FY 2012 Senate Appropriations Bill:
Congressional Language – HEP
Accelerator R&D:“The Committee directs the Department to submit a 10-year strategic plan
by June 1,2012 for accelerator technology research and development to advance accelerator applications in energy and the environment, medicine, industry,
national security, and discovery science.”
Intensity Frontier:“...the United States has unique capabilities that should be exploited to
develop a world-leading program of neutrino science…The Committee directs the
Office of Science to submit a report not later than 180 days of enactment that lays
out—the expected benefits of intensity frontier science,—a strategy for maintaining the U.S. lead, and—the funding needs over the next 10 years, including construction
activities, of implementing the proposed strategy.
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SC and HEP Funding Trends
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FY 1995
FY 1996
FY 1997
FY 1998
FY 1999
FY 2000
FY 2001
FY 2002
FY 2003
FY 2004
FY 2005
FY 2006
FY 2007
FY 2008
FY 2009
FY 2010
FY 2011 CR
FY 2012 Requ
est
—
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
4,500
5,000
Rest of SC HEP
General, bipartisan support for Science
– Administration has also made this a priority
However, Administration priorities within Science are elsewhere
Budget climate not conducive to increases in any discretionary spending area.
SELECTED PROGRAM HIGHLIGHTS
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Energy Frontier: Tevatron
Tevatron shut down on September 30, 2011 after 28 years of service
– Delivered ~12/fb to D0 and CDF CDF and D-Zero analyses will continue for
the next few years– Focused on legacy analyses, including Higgs – Will be high priority for DOE-HEP– Still a lot to do!
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September 30, 2011
Energy Frontier: LHC
The LHC has delivered over 5/fb of integrated luminosity
Expectations are high
Need I say more?
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September 30, 2011
ATLAS Zmm event with 20 reconstructed vertices
We knew this was coming … still very cool to see
Intensity Frontier Workshop
As part of our response to Congress, and with community input, the Office will identify the full scope of science opportunities at the Intensity Frontier.
– The ENTIRE community needs to be engaged in defining the Intensity Frontier program.
– We expect good representation from the community at the workshop, and good dissemination of the results to the community. We expect discussion and feedback from the community in the spring, in time to influence the Intensity Plan due to Congress.
Important that the U.S. LHC community is engaged in this process– While the LHC is very exciting right now, this is about the future of HEP
in the U.S. – it is your chance to shape it!
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Nov 30 – Dec 2, Rockville Hilton, MD www.intensityfrontier.org.Folks at CERN can join workshop from Room 42-3-032 on Friday, Dec. 2nd
Video connection will be available
Cosmic Frontier – Recent DOE Highlights
AMS was launched on the space shuttle on May 16, 2011 and installed on the International Space Station. It is performing as expected and has collected more than 7 billion cosmic ray events
The DES imager is complete; DOE deliverables for CD-4 on schedule for completion by January 2012
BOSS has completed 2 of 5 years of operations. Dark Energy results are planned to be shown at the AAS in January 2012 (Austin) – using spectroscopy measurements of galaxies and quasars
The Mission Need and CD-0 approval for a new ground based dark energy experiment was signed in June 2011.
We are funding a number of Generation-1 direct-detection dark matter experiments: ADMX-2a, COUPP-60, DarkSide, LUX, SuperCDMS-Soudan
Nobel Prize Perlmutter, Riess, Schmidt; “acceleration of the expansion of the universe”
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AMS - 42 GeV/c Carbon
DES Imager
Cosmic Frontier – AMS
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STS-134 AMS on the ISS
LHC PROGRAM
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A U.S.-CERN cooperation agreement was signed by the Secretary of Energy, the Director of NSF, Director General of CERN, and the President of CERN Council.
The U.S. was granted Observer Status at CERN.
Experiments and Accelerator protocols were also signed by the Director of the Office of Energy Research, DOE, the Assistant Director of MPS, NSF, and the CERN DG.
The scope of the agreement is limited to LHC activities
The accelerator portion of the agreement concluded in 2007, the detector portion remains in force until 2017.
A new instrument for LHC cooperation will have to be negotiated so that it can be in place in 2017
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Brief History: U.S. at CERN
Washington DC, December 8, 1997
CERN, December 19, 1997
The cooperation agreement set the overall scale of U.S. contributions to the LHC project at $531M ($450M for DOE, $81M for NSF); The protocols defined the U.S. participation
– DOE Contributions to the LHC Accelerator: $200M (~3% of LHC)– DOE and NSF Contributions to ATLAS and CMS: $331M (~25% of each
detector) DOE and NSF then set up a joint LHC Detector Operations Program
to coordinate U.S. contributions– Manage the common fund contributions for U.S. physicists working on
CMS and ATLAS.– Maintain detector systems and subsystems that are U.S. responsibility.– Carry out directed R&D needed to maintain and eventually upgrade
the detectors.– Provide computing and data storage needed for physics analysis.
Research support (salaries for physicists, student support, travel, etc.) is handled separately through our peer review funding process
The main goal is to enable U.S. physicists to fully and successfully participate in LHC physics.
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U.S. Contributions to the LHC
DOE-HEP provides research support ($80M in FY 2011) to about 1,200 scientists and students at five national labs and over 60 universities
DOE-HEP funding for all LHC-related activities total about $160M/year in FY 2011
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DOE HEP Funding for LHC
Funding / FY (in $M)
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
2011
0.00
10.00
20.00
30.00
40.00
50.00
60.00
70.00
80.00
90.00
Detector Operations
LARP
Detector Construction
Accelerator Upgrade
Accelerator Construction
U.S. LHC Program: View From HQ
The LHC is a real success story– Technical: Machine and detectors performing exceptionally well– Scientific : Paper factory– True international endeavor: U.S. fully integrated at all levels in the
collaborations All advisory groups, panels, and studies have stated that the LHC is
a high priority activity for the U.S.– DOE-HEP is committed to maximal exploitation of U.S. investment– Level of DOE funding for LHC activities reflect the high priority,
especially in tight budget times The U.S. is no longer the steward of the Energy Frontier
– However, we follow the science opportunities, and the LHC program is and will remain a high priority within the Office of Science
– We should be mindful that the long-term health of HEP in the U.S. depends on whether we can build a diverse portfolio of science investments that include world-leading particle physics facilities in the U.S.
– We must therefore strike the right balance between offshore investments and a domestic program built around the intensity frontier.
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A Healthy U.S. LHC Program
We are entering a 20-year program and we need to make it robust and fiscally defensible
We now have experience through all stages of the program– R&D, fabrication, commissioning – Operations, computing, analysis– Activities both at CERN and in the US
What can we do better?– Manage exposure to exchange rate– COLAs – need to build COLA into cost of doing business– Develop ways to be as effective as possible while working in the US –
whether at the LPC or at the home institution – Recognizing contributions from individuals – if the best can be
promoted, it helps the experiments We are in the process of clarifying program roles and
responsibilities along research, operational, and project lines – stay tuned for policies on
– “Category A” -- evolving– Upgrades – just sent out– Others (COLA, etc.)
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Upgrades
The detector collaborations are developing plans for LS1-LS2 detector upgrades that
– Enhance capabilities, including dealing with increasing luminosities– Address current performance issues
We are interested in participating in the proposed LS1-LS2 upgrades, pending the proper reviews, availability of funding, and the following necessary but not sufficient conditions:
– Collaboration approval and buy-in– LHCC approval; CERN approval in terms of schedule/run plan– Solid science case to support a DOE CD-0
Must be able to answer crisply: What is the science case? In which direction is the LHC science pointing? What is the incremental science return on investment? “Detector won’t survive” will not be good enough
Hi-luminosity LHC (LS3) upgrades go beyond current US-CERN agreement
– Will likely be part of US-CERN discussions– Long lead times might be an issue– Will need a very strong science case, especially with likely large
scale of LS3 upgrades Must plan carefully as upgrades will take place concurrently with
operations and analysis extra strain on budgets and workforce 25
We have 5 years to develop and sign a new cooperation agreement– While we can plan, we must have a good idea of what future US-CERN
relationship will look like before we negotiate post-2017 commitments CERN Council is phasing out the Observer State status, which was
granted as part of the US-CERN agreement for the LHC
Through 2017, we see no need to alter the U.S.-CERN Observer relationship.
As new initiatives of mutual interest are considered and initiated, we favor the institution of stakeholder and collaborative approach on a project-by-project basis
We welcome CERN participation in future global projects both at CERN and elsewhere that will leverage global resources to obtain the best overall science
Care must be taken to balance the location and leadership of these global projects so that regional programs remain healthy, vital, and can support one another
Stay tuned.
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Comments on Future Relations with CERN
Conclusions
Budgets are tight so we need to invest wisely– Build a world-class domestic program centered on the intensity
frontier
Many opportunities in particle physics– Cosmic– Neutrino experiments– LHC
Although the LHC is very exciting right now, it is important to remain engaged with the domestic program – a healthy US LHC program needs a diverse US HEP program
We are developing and implementing policies aimed at strengthening the US LHC program
Congratulations on the excellent performance of the LHC, the experiments, and the computing infrastructure
– Now let’s find something new! (but only if it’s there)
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