Pavel Karataev John Adams Institute for Accelerator Science At Royal Holloway, University of London oPAC Advanced School on Accelerator Optimisation 7-11.

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Presentation transcript:

Pavel Karataev John Adams Institute for Accelerator Science At Royal Holloway, University of London oPAC Advanced School on Accelerator Optimisation 7-11 July 2014, Royal Holloway College, Egham, UK Overview of JAI activity

John Adams Institute for Accelerator Science Royal Holloway University of London University of Oxford Imperial College London

JAI Faculty

Main JAI Objectives  Research in Accelerator Science and Technology Generic research experience and expertise Mobility and international experience  Training-through-research at Masters and PhD level Academic training programme at universities Research projects at national and international laboratories  Links with Industry Direct collaboration with companies Provide consultation service  Outreach & Dissemination

International Linear Collider

Compact Linear Collider CLIC - 3 TeV

Beam instrumentation  Transverse beam size measurement Laserwire, OTR monitors, ODR monitors, imaging techniques and interferometers Non-invasive diagnostics  Longitudinal beam profile measurements Coherent radiation spectrum: CDR, CTR, CSR, CSPR Streak camera, RF pickup and RF deflectors  Beam position diagnostics Cavity BPMs, Strip line BPMs, EO BPMs, and Cherenkov Diffraction Radiation technique  Ultrafast Feedback and Feedforward systems

KEK-ATF2 facility in Japan

CLIC Test Facility (CTF3, CERN)

VELA facility -> CLARA

R&D with industry potential  Cavity BPMs + signal processing electronics  Strip-line BPMs  Amplifiers and low latency digital boards  Ultra-fast room temperature detectors  Novel Compact THz and X-ray sources

Light Sources in the UK  Diamond Light Source – the largest Accelerator Facility in the UK

Light Sources in the UK  Short Angstrom Pulsed Photon for Innovative Research SAPPHIRE S07 S m UNDULATOR S01 S02 S03 e-beam X01 BC1BC2 RF-GUN S04 S05 S MeV 1.2 GeV Normal conducting S-band (C-band) technology Photon Energy 12 keV (7-8 GeV electrons in ~800 m) Repetition rate Hz < fs pulses with good emittance (<1  m) and high peak charge (few kA) 10 pC – 1 nC bunches (exceeding photon per pulse at 12 keV)

Multi-pulse Laser Wakefield Acceleration (MP - LWFA)  Advanced experience and expertise in OU and ICL  High power lasers are available  Consultation on the LWFA strategy is ongoing  Accelerator Science Laboratory is being designed at OU

Accelerator Science Laboratory

Muon Ionization Cooling Experiment (MICE)

Ion accelerators  High Luminosity LHC upgrade Advanced Beam Optics Studies Collimation studies SPS head-tail monitors Electro-optic BPMs Cherenkov radiation bunch length and position monitor  Front-End-Test-Stand (FETS) – H - facility Ion source RFQ Beam diagnostics  Linac4 – injector upgrade for HL-LHC Beam position monitors Laser-Wire transverse emittance scanner  Medical accelerators Compact accelerators for medical applications Low and medium energy beam transport lines

Future plans and directions  Future Linear Collider projects  Engage into the FCC project European strategy – CERN led efforts CDR and cost by 2018  Advance Laser Plasma acceleration technology  MICE experiment  Spallation sources (ISIS, ESS)  Diamond and other light sources  Closer collaboration with RAL, ASTEC, and Cockroft Institute