slac/stanford science research & funding opportunities pat kreitz february 1, 2008
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SLAC/Stanford Science SLAC/Stanford Science Research & FundingResearch & Funding
OpportunitiesOpportunities
Pat KreitzPat KreitzFebruary 1, 2008February 1, 2008
Analyzed federal funding forAnalyzed federal funding forbasic and applied sciencebasic and applied science
• What research programs and initiatives What research programs and initiatives currentlycurrently exist, exist, that that could provide additional supportcould provide additional support beyond SLAC’s traditional beyond SLAC’s traditional funding sources?funding sources?
• Are there funding sources to support new opportunities for a Are there funding sources to support new opportunities for a re-invented and re-focused SLAC/Stanford science research re-invented and re-focused SLAC/Stanford science research enterprise?enterprise?
Research processResearch process
• Past federal research programsPast federal research programs
• Future national science research agendaFuture national science research agenda
• SourcesSources
– Current agency research portfolios
– Past research grants
– Committee reports & research roadmaps
– Articles & talks about the future of science
– Funding databases
– National Laboratories’ research activities
– University, society & agency press releases
– Compilations such as R&D magazine’s R&D 100 Awards
Presentation will cover:Presentation will cover:
• Scientific research in federal agenciesScientific research in federal agencies
– Designing strategic research agendas
– Sharing assumptions and themes
– Coordinating solutions
• Research community responsesResearch community responses
– Labs: LBNL, ANL
– Interdisciplinary projects: Human Brain
– Interdisciplinary problems: Artificial Retina
• SLAC/SU potential responsesSLAC/SU potential responses
Strategic approaches to R&D: Strategic approaches to R&D: BES within DOEBES within DOE
Where is SLAC on theseWhere is SLAC on thesestrategic R&D roadmaps?strategic R&D roadmaps?
Similar strategic approachesSimilar strategic approaches
• Focused by agency mission and goalsFocused by agency mission and goals
• Scientific problems are more difficult because they are more Scientific problems are more difficult because they are more interdisciplinary interdisciplinary
• Scientific problems are sharedScientific problems are shared
• Shared problems are framed as practical solutions to “crisis-Shared problems are framed as practical solutions to “crisis-defined” agency rolesdefined” agency roles
NIH Roadmap forNIH Roadmap forInterdisciplinary Medical ResearchInterdisciplinary Medical Research
• Establishing a series of awards to make it easier toEstablishing a series of awards to make it easier to conduct conduct interdisciplinary researchinterdisciplinary research
• Training scientists inTraining scientists in interdisciplinary strategies interdisciplinary strategies
• Creating specialized centers to helpCreating specialized centers to help forge new and more advanced forge new and more advanced disciplines disciplines from existing onesfrom existing ones
• Supplementing existing awards to encourageSupplementing existing awards to encourage more interdisciplinary more interdisciplinary depthdepth
• Catalyzing Catalyzing collaboration between the life and physical sciencescollaboration between the life and physical sciences
Similar strategic approachesSimilar strategic approaches
• Focused by agency mission and goalsFocused by agency mission and goals
• Scientific problems are more difficult because they are more Scientific problems are more difficult because they are more interdisciplinary interdisciplinary
• Scientific problems are sharedScientific problems are shared
• Shared problems are framed as practical solutions to “crisis-Shared problems are framed as practical solutions to “crisis-defined” agency rolesdefined” agency roles
Earth Science and ApplicationsEarth Science and Applicationsfrom Space: National Imperativesfrom Space: National Imperativesfor the Next Decade and Beyondfor the Next Decade and Beyond
• A National Research Council report written by staff from NASA, A National Research Council report written by staff from NASA, NOAA, & USGSNOAA, & USGS
• Recommendations:Recommendations:
– Develop a science strategy for obtaining long-term, continuous, stable observations of the Earth system that are distinct from weather prediction
– Build and sustain an Earth Knowledge and Information System
– Create a climate data and information system to ensure the production, distribution, analysis, and stewardship of high-accuracy climate records
Similar strategic approachesSimilar strategic approaches
• Focused by agency mission and goalsFocused by agency mission and goals
• Scientific problems are more difficult because they are more Scientific problems are more difficult because they are more interdisciplinary interdisciplinary
• Scientific problems are sharedScientific problems are shared
• Shared problems are framed as practical solutions to “crisis-Shared problems are framed as practical solutions to “crisis-defined” agency rolesdefined” agency roles
DOE frames science asDOE frames science assolving national problemssolving national problems
• Two great crises facing our nation:Two great crises facing our nation:– Maintaining our economic competitiveness
– Ensuring energy security
• ““Current technologies cannot meet these challenges and Current technologies cannot meet these challenges and incremental improvements…will not suffice…we need incremental improvements…will not suffice…we need fundamental breakthroughs”fundamental breakthroughs”– Biofuels
– Electrical energy storage
– Fusion
– Nuclear energy
(from a speech by DOE’s Ray Orbach, “Transformational Science for Energy and the Environment”)
Research roadmaps reflectResearch roadmaps reflectfive core problemsfive core problems
1.1. How to meet our resource needs for energy, food, and water?How to meet our resource needs for energy, food, and water?
2.2. How to ensure economic competitiveness?How to ensure economic competitiveness?
3.3. How to understand and respond to global environmental How to understand and respond to global environmental issues?issues?
4.4. How to improve human health and the quality of life?How to improve human health and the quality of life?
5.5. How to support and improve national security and homeland How to support and improve national security and homeland defense?defense?
Research roadmaps identifyResearch roadmaps identifyscientific themesscientific themes
• Theme: produce diversified, secure, affordable, clean and Theme: produce diversified, secure, affordable, clean and efficient energy sourcesefficient energy sources
• Theme: the Biological CenturyTheme: the Biological Century
• Support sciences: Support sciences:
– Chemistry and materials science viewed as tools for understanding and manipulating processes
– Engineering is a hyphenated concept
– Physics provides fundamental underpinnings
– Nanoscience in service of biological and non-biological systems
– Powerful computational support systems support most of these themes
Agencies funding similar activities, Agencies funding similar activities, e.g. U.S. Department of Agriculturee.g. U.S. Department of Agriculture
• Nanotechnology:Nanotechnology:– Development of Nanotechnology for Rapid Detection of Food Pathogens– Application of Plant-Viral Based Vectors to the Development of Novel Disease C
ontrol Strategies
• Imaging:Imaging:– Biophotonics - the Application of Novel Imaging Methodologies to Livestock Prod
uction Research– Development of Rapid, Non-Destructive Hyperspectral Imaging Methodology to
Measure Fungal Growth and Aflatoxin Contamination– Imaging Systems and Analytical Tools for Remote Detection of Crop Physiologic
al Status and Potential Insect Predation
• Computation:Computation:– Global Estimation of Canopy Water Content– Massively Parallel Sequencing to Determine Global Transcript Profiles in Soybea
n Following Phytophthora Sojae Infection
• Catalysts:Catalysts:– Microbial Catalysts to Produce Fuel Ethanol and Value Added Products – Evolutionary Enzyme Design for Improved Biorefining of Crops and Residues
Research opportunitiesResearch opportunitiescross agency boundariescross agency boundaries
• ChemistryChemistry• ClimateClimate• Complex SystemsComplex Systems• Fuels and EnergyFuels and Energy• Lasers and AcceleratorsLasers and Accelerators• NanoscienceNanoscience• New Tools and InstrumentsNew Tools and Instruments
Chemistry:Chemistry:
• BES: BES: Improved catalysts for fuel and chemical productionImproved catalysts for fuel and chemical production
• DOE Fossil Energy Office: National Energy Technology DOE Fossil Energy Office: National Energy Technology Laboratory: Laboratory: “Nanoparticles: Are they Viable Reagents…?”“Nanoparticles: Are they Viable Reagents…?”
• DOE EERE: DOE EERE: Technology for harnessing biomass both biochemically Technology for harnessing biomass both biochemically and thermochemicallyand thermochemically
• USDA: USDA: Microbial catalysts for produce fuel ethanol; enzyme design Microbial catalysts for produce fuel ethanol; enzyme design for biorefiningfor biorefining
ClimateClimate
• NASA: Call for Research Proposals:NASA: Call for Research Proposals:– Carbon cycle science– Atmospheric composition– Artic research on tropospheric chemistry– Hybrid Doppler Wind Lidar (HDWL) in low Earth orbit
• USDA: National Research Program: USDA: National Research Program: – Air quality program– Global change: Projecting climate and weather changes through models at
many spatial scales
• Dept. of Commerce: NOAA: Climate Program Office: Dept. of Commerce: NOAA: Climate Program Office: – Air resources– Earth systems – Environmental conditions, modeling, and effects– Severe storms and weather– Geophysical fluid dynamics
• DOE Office of Science: Biological and Environmental Research: DOE Office of Science: Biological and Environmental Research: – Climate change– Environmental remediation
Complex systems: design, modeling,Complex systems: design, modeling,testing and analysistesting and analysis
• DOE Civilian Radioactive Waste Management: DOE Civilian Radioactive Waste Management: – New or improved scientific investigation methods or tools for waste package verification, natural systems, and
monitoring• DOE & NIH Isotope Program: DOE & NIH Isotope Program:
– Computational and instrumentation development• National Energy Technology Laboratory: National Energy Technology Laboratory:
– “Virtual engineering of Advanced Power Generation Systems”• DOE Environmental Management: DOE Environmental Management:
– Partnership for the development of next generation simulation tools for evaluating cementitious barriers and materials • DOE Energy Efficiency and Renewable Energy: DOE Energy Efficiency and Renewable Energy:
– Developing building energy software and simulation tools • US Department of Agriculture: US Department of Agriculture:
– Developing and delivering science-based information and analytical tools for agricultural management decision-making– Furnishing genetic and bioinformatics tools for plant genetic development and plant biological and molecular processes– Global change: synthesizing, analyzing and projecting information, creating predictive models at all spatial scales
• National Science Foundation: National Science Foundation: – Collaborative research in computational neuroscience: computational understanding of the nervous system– Mathematical Geosciences: mathematical and statistical modeling of large, complex geosystems, managing uncertainty
at large-scales; analyzing large data sets• NASA, NOAA, USGS: NASA, NOAA, USGS:
– Build and sustain an Earth Knowledge and Information System– Create a climate data and information system to ensure the production, distribution, and stewardship of high-accuracy
climate records • National Cancer Institute: Center for Bioinformatics:National Cancer Institute: Center for Bioinformatics:
– Next generation NCIB software—open development initiative• Defense Advanced Research Projects Agency:Defense Advanced Research Projects Agency:
– Improve and scale up qubit technologies– Explore strategies for computation and communication using quantum systems– An interactive design tool using mathematical techniques like those developed for the Internet to represent, organize and
exploit information in the vast world of high-dimensional data
Fuels and EnergyFuels and Energy
• DOE: Basic Energy Sciences: DOE: Basic Energy Sciences: – Materials that improve the efficiency, economy, environmental
acceptability, and safety of energy generation, conversion, transmission, and use
– New solar photo conversion processes• DOE: Nuclear Energy:DOE: Nuclear Energy:
– Longer-term development and deployment of next-generation advanced reactors and fuel cycles
• DOE Energy Efficiency & Renewable Energy:DOE Energy Efficiency & Renewable Energy: – Geothermal program: Research to reduce the cost and expand availability of
geothermal energy
– Fuel and transportation research: Hybrid & vehicle research
– Biomass program: Create biorefineries
• US Department of Agriculture:US Department of Agriculture: – Energy crops: Evaluation of grass straw feedstocks to convert to energy
– Clean, efficient ethanol production
– Biodiesel fuels
• DOD: Defense Advanced Research Projects AgencyDOD: Defense Advanced Research Projects Agency::– Explore achieving nearly complete packaging waste reduction while harnessing 90
percent of the packaging energy content for electricity generation
HydrogenHydrogen
• DOE Nuclear Energy Office: DOE Nuclear Energy Office:
– Significant R&D in nuclear hydrogen production technologies; heat transfer components; corrosion-resistant materials
• DOE Fossil Energy: DOE Fossil Energy:
– International Partnership for a Hydrogen Economy
• DOE EERE: DOE EERE:
– Hydrogen Fuel initiative
• USDA:USDA:
– ARS project: production from biomass sugars
– Hydrogen fuel cells
– Hydrogen & ionic bonding to produce thermostability
Lasers and Accelerators:Lasers and Accelerators:
• DOE Fusion Energy SciencesDOE Fusion Energy Sciences: : laser research is criticallaser research is critical to to developing the knowledge base needed for an economically and developing the knowledge base needed for an economically and environmentally attractive fusion energy sourceenvironmentally attractive fusion energy source
• NIH, DOE, FDA: Improve radionuclide production, chemistry, and NIH, DOE, FDA: Improve radionuclide production, chemistry, and automation to lower the cost and increase the availability of automation to lower the cost and increase the availability of radiopharmaceuticals by radiopharmaceuticals by inventing a new miniaturized particle inventing a new miniaturized particle accelerator and associated technologiesaccelerator and associated technologies
• National Research Council: Committee on AMO 2010: Future National Research Council: Committee on AMO 2010: Future discoveries will require discoveries will require significant advancements in laser, significant advancements in laser, sensor, and detectorsensor, and detector technology technology
• NETL, LANL, Colorado State University: NETL, LANL, Colorado State University: laser spark plugslaser spark plugs
NanoscienceNanoscience
• DOE & NIHDOE & NIH: : – Radiopharmaceutical compounds development and deployment
• USDAUSDA: : – Nanotechnology for rapid detection of good pathogens – novel disease control strategies
• NSF: Materials Research Science and Engineering CentersNSF: Materials Research Science and Engineering Centers: : – biomolecular, biomimetic materials; – nanostructures and nanoparticles
• NSF & EPA:NSF & EPA: – Proposals due March 2008 to create a new Center for Environmental
Implications of Nanotechnology– Conduct fundamental research and education on the implications of
nanotechnology for the environment and living systems at all scales • DARPADARPA::
– Novel, biocompatible ferrofluids, or magnetic “tags,” with superior magnetic properties capable of attaching to single bio-molecules and cells with a high degree of specificity
– Bio-compatible, high-sensitivity magnetic sensors capable of detecting single magnetic nanoparticles with 100 nm or less diameters
– Hybrid bio-molecular devices/systems that use biological units (e.g., Protein Ion Channels/Nanopores, G-Protein Coupled Receptors, etc.) for sensing but use silicon circuitry for signal processing
Tools and InstrumentsTools and Instruments
• DOE EERE: DOE EERE: – Acoustic telemetry systems– Low emissions atmospheric geothermal steam separator– FreedomCAR
• USDA: Imaging: USDA: Imaging: – Applying biophotonics to livestock production research– Rapid, non-destructive hyperspectral imaging methodology– Global estimating of canopy water content
• NSF: NSF: Directed nano-assemblies and interfaces for advanced electronics• NIH: NIH: Exploratory/developmental bioengineering research• NIH, DOE, FDA: NIH, DOE, FDA:
– Develop higher resolution, more sensitive imaging instruments (PET/MRI)– Develop new technology platforms to accelerate and lower cost of
discovering and validating new molecular imaging probes, biomarkers and radiotherapeutic agents
• DARPA: DARPA: – Guided BEC interferometry program to enable atom interferometer-based
measurement units– Chemical Communications Program to develop self-powered chemical
systems that can encode an input string of alphanumeric characters, convert the message to a modulated optical signal, and transmit it repetitively to a receiver
Research community responses:Research community responses:
• National laboratories:National laboratories:– LBNL
– Argonne
• Interdisciplinary projects:Interdisciplinary projects:– Human Brain Project (SU has site)
• Interdisciplinary problems:Interdisciplinary problems:– Artificial Retina Project
LBNL is positioned to respondLBNL is positioned to respondto calls for interdisciplinaryto calls for interdisciplinary
and novel scienceand novel science
• Traditional departments re-inventing themselvesTraditional departments re-inventing themselves
• Providing scientific and management expertise to DOEProviding scientific and management expertise to DOE
• New groups and projects formed (with impressive marketing!)New groups and projects formed (with impressive marketing!)
LBNL: Taking on new challengesLBNL: Taking on new challenges
• Reinventing traditional approaches:Reinventing traditional approaches:
– Department of Climate Science: The first climate group in the world to work closely with large research teams on new strategies for addressing climate change including modeling, rapid prototyping of biofuels, aerosols, etc. and develop links between models and mitigation efforts
• Assuming new roles: Assuming new roles:
– Natural and Accelerated Bioremediation Research (NABIR) Program Office
• For the Environmental Remediation Sciences Program of the Office of Science, DOE
• http://www.lbl.gov/ERSP
LBNL: Interdisciplinary groupsLBNL: Interdisciplinary groups
• Joint BioEnergy InstituteJoint BioEnergy Institute
– Six funded by DOE, one at LBNL
– Four areas of focus:
• Feedstocks:Feedstocks: Wolf Frommer, Stanford University, VP Wolf Frommer, Stanford University, VP
• DeconstructionDeconstruction
• Fuels SynthesisFuels Synthesis
• Cross-cutting TechnologiesCross-cutting Technologies
• "This early infusion of funds will enable JBEI to get underway immediately on "This early infusion of funds will enable JBEI to get underway immediately on the urgent quest for the transformational breakthroughs in basic science our the urgent quest for the transformational breakthroughs in basic science our nation needs to usher in a new biofuels economy." nation needs to usher in a new biofuels economy."
-- -- Raymond L. Orbach, Under Secretary for Science, U.S. Department of EnergyRaymond L. Orbach, Under Secretary for Science, U.S. Department of Energy
LBNL: InterdisciplinaryLBNL: Interdisciplinaryprojects & toolsprojects & tools
• Helios Project: Helios Project: A knowledge-based facility focused on applying the A knowledge-based facility focused on applying the emerging areas of synthetic biology and nanomaterials to solar emerging areas of synthetic biology and nanomaterials to solar energy utilizationenergy utilization
• The Molecular Foundry: The Molecular Foundry: Studies the synthesis, characterization Studies the synthesis, characterization and theory of nanoscale materials (biological and polymeric & and theory of nanoscale materials (biological and polymeric & inorganic and microfabricated)inorganic and microfabricated)
Argonne National LabArgonne National Lab
• Basic and applied research areas Basic and applied research areas
– Materials and chemical sciences and engineering
– High energy, nuclear, and atomic physics
– Multidisciplinary nanoscience and nanotechnology
– Structural biology, functional genomics, and bioinformatics
– Environmental science, technology, and assessment
– Transportation technology
– Computer science and applied mathematics
– Computational science
• Design, construction, and operation of accelerator-based user Design, construction, and operation of accelerator-based user facilities facilities
• Design, development, and evaluation of advanced nuclear energy Design, development, and evaluation of advanced nuclear energy systems and proliferation-resistant nuclear fuel-cycle technologiessystems and proliferation-resistant nuclear fuel-cycle technologies
Argonne: Research ActivitiesArgonne: Research Activities
• Argonne and industry partners assume a leadership role in PHEV vehicle Argonne and industry partners assume a leadership role in PHEV vehicle systems research to further develop systems research to further develop advanced batteriesadvanced batteries
• Argonne and German research team receives an R&D 100 Award for a new Argonne and German research team receives an R&D 100 Award for a new ultra-high resolution mammography systemultra-high resolution mammography system that detects cancerous that detects cancerous tumors with higher-quality images, more efficient radiation exposures and tumors with higher-quality images, more efficient radiation exposures and lower costlower cost
• Argonne National Laboratory, in conjunction with the Argonne National Laboratory, in conjunction with the University of ChicagoUniversity of Chicago, , recently helped to recently helped to launch a Fab Lablaunch a Fab Lab at Chicago's at Chicago's Museum of Science and IndustryMuseum of Science and Industry, and others may soon arrive both on site , and others may soon arrive both on site and at several locations in greater Chicagoland. The Argonne/University of and at several locations in greater Chicagoland. The Argonne/University of Chicago Computational Institute is Chicago Computational Institute is exploring grid computing technology exploring grid computing technology to link Fab Labs worldwideto link Fab Labs worldwide
• Emeryville, California’s BioTime, Inc. and Argonne National Laboratory are Emeryville, California’s BioTime, Inc. and Argonne National Laboratory are engaged in a cooperative research program in the field of engaged in a cooperative research program in the field of therapeutic therapeutic hypothermiahypothermia. BioTime and Argonne have each developed complementary . BioTime and Argonne have each developed complementary technologies in the field with potential applications in stroke, heart attack, technologies in the field with potential applications in stroke, heart attack, and trauma patientsand trauma patients
• Argonne's Argonne's miniature "microelectronic nose"miniature "microelectronic nose" detects toxic gases in the detects toxic gases in the atmosphere at non-lethal concentrations and can be used for homeland atmosphere at non-lethal concentrations and can be used for homeland security and agricultural applicationssecurity and agricultural applications
Argonne: Multiple partnershipsArgonne: Multiple partnerships
• Interdisciplinary:Interdisciplinary:– Center for Integrated Emergency Preparedness
– Center for Energy, Environmental, and Economic Systems Analysis
– Center for Computational Science and Technology
– Transportation Technology R&D Center
• Inter-institutional:Inter-institutional:– ANL, DOE & State of Illinois:
• Center for Nanoscale Materials
– ANL & University of Chicago: • Consortium for Nanoscience Research
• Institute for Genomics and Systems Biology
• Computation Institute
• Consortium for Advanced Radiation Sources
• Emergency Resuscitation Center
• U. of Chicago’s Regional Biocontainment Laboratory
– ANL & Northwestern University: • Institute for Catalysts in Energy Processes
• Solar Research Center
Interdisciplinary approaches to problems: Interdisciplinary approaches to problems: the Federal Interagency Coordinatingthe Federal Interagency Coordinating
Committee on the Human Brain ProjectCommittee on the Human Brain Project
– National Science Foundation (NSF)– National Aeronautics and Space Administration Headquarters (NASA)– Department of Energy (DOE) – National Cancer Institute (NCI) – National Heart, Lung, and Blood Institute (NIHLB)– National Institute on Aging (NIA) – National Institute on Alcohol Abuse and Alcoholism (NIAAA)– National Institute of Biomedical Imaging and Bioengineering (NIBIB)– National Institute of Child Health and Human Development (NICHD)– National Institute on Deafness and Other Communication Disorders (NIDCD)– National Institute on Dental and Craniofacial Research (NIDCR)– National Institute on Drug Abuse (NIDA) – National Library of Medicine (NLM) – National Institute of Mental Health (NIMH)– National Institute of Neurological Disorders and Stroke (NINDS)
Scientists taking onScientists taking oninterdisciplinary problems:interdisciplinary problems:
Science agencies share themes:Science agencies share themes:
• Need interdisciplinary integrationNeed interdisciplinary integration
– Design and synthesis of materials exploiting nanoscale understanding
– Advanced scientific computing research and mathematics
– Growing interconnection between physics, chemistry, biology and materials properties
• Need new technologies and toolsNeed new technologies and tools
• Need basic science research breakthroughs to support Need basic science research breakthroughs to support advances in applied fields—rarely an end in itselfadvances in applied fields—rarely an end in itself
• Basic Research Needs for Electrical Energy Storage
• Basic Research Needs for Geosciences: Facilitating 21st Century Energy Systems
• Basic Research Needs for Clean and Efficient Combustion of 21st Century Transportation Fuels
• Basic Research Needs for Advanced Nuclear Energy Systems
• Basic Research Needs for Solid-State Lighting
• Basic Research Needs for Superconductivity
• The Path to Sustainable Nuclear Energy: Basic and Applied Research Opportunities for Advanced Fuel Cycles
• Basic Research Needs for Solar Energy Utilization
• Advanced Computational Materials Science: Application to Fusion and Generation IV Fission Reactors
• Opportunities for Discovery: Theory and Computation in Basic Energy Sciences
• Nanoscience Research for Energy Needs
• DOE-NSF-NIH Workshop on Opportunities in THz Science
• Basic Research Needs for the Hydrogen Economy
• Theory and Modeling in Nanoscience
• Opportunities for Catalysis in the 21st Century
• Biomolecular Materials
• Basic Research Needs To Assure A Secure Energy Future
• Basic Research Needs for Countering Terrorism
• Complex Systems: Science for the 21st Century
• Nanoscale Science, Engineering and Technology Research Directions
Research roadmapsResearch roadmapsreflect this view of basic researchreflect this view of basic research
Two questions face us:Two questions face us:
• What can SLAC become — for ourselves and for campus?What can SLAC become — for ourselves and for campus?
• How can SLAC & Stanford take a leadership role to prepare for How can SLAC & Stanford take a leadership role to prepare for and to shape the scientific endeavor in 2050?and to shape the scientific endeavor in 2050?
What do scientists on campusWhat do scientists on campusneed that SLAC can provide?need that SLAC can provide?
• Current:Current:
– Tool-building expertise
– Theoretical perspective (boundary-hoppers)
– Massive computing capacity & expertise
– Focused and supportive staff & services
• Future:Future:
– Interdisciplinary tools
– Interdisciplinary support, e.g. research coordination support, funding information
Changed color and spaces before and after the “”
How do we frame LCLS?How do we frame LCLS?
• Is the LCLS a disruptive technology?Is the LCLS a disruptive technology?
• Clayton Christensen: Clayton Christensen: Disruptive technologies enable more, less skilled people to do something more conveniently at lower cost with more accuracy than before
• Can we work to make LCLS easily support Can we work to make LCLS easily support archaeology, art, etc.?archaeology, art, etc.?
LCLS: Tools spanning fieldsLCLS: Tools spanning fields
Where can SLACWhere can SLACand Stanford go together?and Stanford go together?
• Learning organizationsLearning organizations
• EntrepreneurialEntrepreneurial
• NimbleNimble
• InterdisciplinaryInterdisciplinary
• DiverseDiverse
• CollaborativeCollaborative
• VisionaryVisionary
• Deeply analytical and irreverent expertiseDeeply analytical and irreverent expertise
SLAC/SU/Silicon Valley:SLAC/SU/Silicon Valley:innovation and incubationinnovation and incubation
ConclusionsConclusions
• Many more opportunities exist for research funding than SLAC Many more opportunities exist for research funding than SLAC has used in the pasthas used in the past
• To become a center for interdisciplinary scientific work we will To become a center for interdisciplinary scientific work we will need to take new approaches to systems and servicesneed to take new approaches to systems and services
Rather than proceeding reactively, Stanford and SLAC should Rather than proceeding reactively, Stanford and SLAC should combine forces intentionally — as learning organizations, as combine forces intentionally — as learning organizations, as nimble entrepreneurial, and diverse cultures. We should use nimble entrepreneurial, and diverse cultures. We should use our rich resource of creative, analytical and irreverent our rich resource of creative, analytical and irreverent researchers to ask questions about, and shape the future of, researchers to ask questions about, and shape the future of, 2121stst century science. century science.
Further questionsFurther questions
• We are so good at tools, instrumentation, and techniques — We are so good at tools, instrumentation, and techniques — what are the actual skills involved? Can they be identified and what are the actual skills involved? Can they be identified and taught? Can we create a center for innovative tools/techniques taught? Can we create a center for innovative tools/techniques across disciplines?across disciplines?
• The crisis de jour is energy — some speculate it will be The crisis de jour is energy — some speculate it will be mapped to a solution within 5 years. What problems do we mapped to a solution within 5 years. What problems do we want to position ourselves to help solve a decade from now?want to position ourselves to help solve a decade from now?
• How do we engage the entrepreneurial and creative talents of How do we engage the entrepreneurial and creative talents of people and companies in Silicon Valley? people and companies in Silicon Valley?
• How do we catch the weak signals of the next challenges & How do we catch the weak signals of the next challenges & innovations? Can we partner with futurologists to imagine the innovations? Can we partner with futurologists to imagine the scientific endeavor in 2050?scientific endeavor in 2050?
• How can we protect serendipitous, unstructured creativity?How can we protect serendipitous, unstructured creativity?