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Accelerators in our Future ILC and Beyond Barry Barish Caltech Neutrino Telescope - Venice 13-March-09
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13-March-09 NEUTEL - Venice The International Linear Collider2 Scientific Frontiers From P5 Report
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13-March-09 NEUTEL - Venice The International Linear Collider3 Three Frontiers (from P5 Report) To address the central questions in particle physics, researchers use a range of tools and techniques at three interrelated frontiers: –The Energy Frontier, using high-energy colliders to discover new particles and directly probe the architecture of the fundamental forces. –The Intensity Frontier, using intense particle beams to uncover properties of neutrinos and observe rare processes that will tell us about new physics beyond the Standard Model. –The Cosmic Frontier, using underground experiments and telescopes, both ground and space based, to reveal the natures of dark matter and dark energy and using high-energy particles from space to probe new phenomena. These three frontiers form an interlocking framework that addresses fundamental questions about the laws of nature and the cosmos. These three approaches ask different questions and use different techniques, but they ultimately aim at the same transformational science.
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13-March-09 NEUTEL - Venice The International Linear Collider4 Answering the Questions Three Complementary Probes + … Neutrinos as a Probe –Particle physics and astrophysics using a weakly interacting probe High Energy Proton Proton Colliders –Opening up a new energy frontier ( ~ 1 TeV scale) High Energy Electron Positron Colliders –Precision Physics at the new energy frontier Increasing connections to Astrophysics/Cosmology
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13-March-09 NEUTEL - Venice The International Linear Collider5 Exploring the Terascale the tools The LHC –It will lead the way and has large reach –Quark-quark, quark-gluon and gluon-gluon collisions at 0.5 - 5 TeV –Broadband initial state A Linear Collider (e.g. ILC) –A second view with high precision –Electron-positron collisions with fixed energies, adjustable between 0.1 and 1.0 TeV –Well defined initial state Together, these are our tools for the terascale
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13-March-09 NEUTEL - Venice The International Linear Collider6 Electron-Positron Colliders Bruno Touschek built the first successful electron-positron collider at Frascati, Italy (1960) Eventually, went up to 3 GeV ADA
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13-March-09 NEUTEL - Venice The International Linear Collider7 Energy Frontier Lepton Colliders ILC < 1 TeV Technically possible ~ 2020 + ILC
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13-March-09 NEUTEL - Venice The International Linear Collider8 Energy Frontier Lepton Colliders QUAD POWER EXTRACTION STRUCTURE BPM ACCELERATING STRUCTURES CLIC < 3 TeV Feasibility? Longer timescale Main beam – 1 A, 200 ns from 9 GeV to 1.5 TeV Drive beam - 95 A, 300 ns from 2.4 GeV to 240 MeV CLIC
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13-March-09 NEUTEL - Venice The International Linear Collider9 Energy Frontier Lepton Colliders Muon Collider < 4 TeV FEASIBILITY?? Much longer timescale Much R&D Needed Neutrino Factory R&D + bunch merging much more cooling etc Muon Collider & Neutrino Factory
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13-March-09 NEUTEL - Venice The International Linear Collider10 Energy Frontier Lepton Colliders Accelerator R &D Only Plasma Wakefield Accelerator
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13-March-09 NEUTEL - Venice The International Linear Collider11 Intensity Frontier – Proton Driver Intense Protons / Neutrinos for Long Baseline Project X - Fermiab (ILC SCRF technology )
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13-March-09 NEUTEL - Venice The International Linear Collider12 Intensity Frontier – Super B Factory
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13-March-09 NEUTEL - Venice The International Linear Collider13 Intensity Frontier – Super B Factory KEK proposed path to Super B
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13-March-09 NEUTEL - Venice The International Linear Collider14 Intensity Frontier – Super B Factory INFN alternate approach to Super B
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13-March-09 NEUTEL - Venice The International Linear Collider15 Intensity Frontier – Super B Factory INFN proposed path to Super B
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13-March-09 NEUTEL - Venice The International Linear Collider16 Globalizing Future Neutrino Projects? Globalization has become inevitable for future accelerator projects Big HEP laboratories provide natural unifying mechanisms –MoUs for joint R&D; provide long range regional planning; exchanges between labs, etc –Large International projects with host laboratory, governance etc for LEP, LHC, Tevatron, B-factories Next step is global projects –Globalized project concept, R&D, design, implementation, financing, governance and science –Oversight and guidance jointly by the worldwide funding agencies (FALC) and scientific (ICFA)
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13-March-09 NEUTEL - Venice The International Linear Collider17 International/Global Organization SCRF -ML G-CFS AS EU AM AS ILCSCFALC ILC-GDE Director Regional Directors Project Managers AAP PAC FALC-RG Director’s Office = ~ Central Team = ~ EC Experts Project. M. Office - EDMS - Cost & Schedule - Machine Detector Interface - ILC, XFEL, Project X liaison - ILC Communications
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13-March-09 NEUTEL - Venice The International Linear Collider18
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13-March-09 NEUTEL - Venice The International Linear Collider19
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13-March-09 NEUTEL - Venice The International Linear Collider20 ILC – Underlying Technology Room temperature copper structures OR Superconducting RF cavities
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13-March-09 NEUTEL - Venice The International Linear Collider21 SCRF Technology Recommendation The recommendation of ITRP was presented to ILCSC & ICFA on August 19, 2004 in a joint meeting in Beijing. ICFA unanimously endorsed the ITRP’s recommendation on August 20, 2004
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13-March-09 NEUTEL - Venice The International Linear Collider22
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13-March-09 NEUTEL - Venice The International Linear Collider23 Funding Agencies for Large Colliders TERMS OF REFERENCE –To consider the wider picture of particle physics research, to understand the priorities and constraints in each region and to provide information and guidance to governments for planning and coordinating large particle physics facilities. –To improve the possibilities for international co-operation by understanding the planning processes in the funding agencies. –To provide a forum to prepare for, and report, decisions about funding arrangements for future particle physics facilities. –To provide a forum to promote knowledge of the applications of the technologies to be developed for large colliders, both in other scientific areas and in industry. –Recognising ICFA as the scientific reference point, to receive reports from ICFA (and its subsidiary bodies as appropriate), on the status of programmes for future particle physics facilities. –To exchange information on R&D projects being carried out for future particle physics facilities requiring international cooperation. –To encourage global cooperation in the R&D programmes for existing projects (such as the LHC and J- PARC), promote coordination for projects in the R&D and design phase (such as the ILC) and share information on possible future technologies and projects (such as CLIC and a neutrino factory). –To promote for the ILC specifically, the coordination of resources and the conduct of an R&D programme for the engineering design phase, and to work towards an appropriate organisational structure for the engineering design phase. –To produce a public annual report, including a scientific report from ICFA and information on the global picture of R&D for future particle physics facilities.
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13-March-09 NEUTEL - Venice The International Linear Collider24 Funding Agencies for Large Colliders –To promote for the ILC specifically, the coordination of resources and the conduct of an R&D programme for the engineering design phase, and to work towards an appropriate organisational structure for the engineering design phase. Membership: Representatives of funding agencies (up to 5-7 per region), or their nominees. The Chairman should be elected from amongst the members, for a period of 3 years. In attendance: Chairs of ICFA and ILCSC Chair of the FALC Resources Group The Public notes of the meetings can be found at http://www.linearcollider.org/cms/?pid=1000305.
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13-March-09 NEUTEL - Venice The International Linear Collider25 Accelerators – Industrial Applications
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13-March-09 NEUTEL - Venice The International Linear Collider26 Accelerators – Medical Applications New Treatment Modalities with protons, heavy ions
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13-March-09 NEUTEL - Venice The International Linear Collider27 Accelerators – Final Remarks Many possibilities - upgrades (sLHC, etc), medium term (Project X, SuperB) and longer term (Linear Collider) for accelerators for HEP HEP is the field that invents new accelerators develops accelerator techniques. This is a real “service” to society We are developing tools for future applications other sciences (material science, biology, etc), for industry (material science) and for medicine A global and vigorous program in accelerator science is crucial for the future of HEP and also for many other applications
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