Research Summary: Historical & Current Food Plans from Maine
Summary "R & D Plans 1"
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Transcript of Summary "R & D Plans 1"
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P. Muggli, Summary EuroNAAc 11
Disclaimer 1: all slides with nice graphics and useful information shamelessly stolen from original talks
Disclaimer 2: everything else is the opinion of the convenerDisclaimer 3: convener may change his mind at any time without noticeDisclaimer 4: I have 30min. I need to simplify! Sorry!
Summary "R & D Plans 1"
Patric MuggliMax Planck Institute for Physics, Munich
•Plans for development of facilities with schedule•5 year perspective (level of approved support: funded/proposed/idea)•Motivation and objectives•Acceleration goals (summary table)•Application goals•Possibilities for open access•Expectations for network
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P. Muggli, Summary EuroNAAc 11
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P. Muggli, Summary EuroNAAc 11
Four “drivers” for photon sources•Storage rings•Linacs•Energy Recovery Linacs (ERLs)•Plasma-based (LWFA, betatron)
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>50 storage ring-based photon sources
Storage rings cannot operate at short, x-ray wavelengths, produce short pulses, because:•Too high an emittance•Flat, unequal emittances beams•Too long for short, coherent photon pulses •Low peak current
In the context of this workshop:
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Favors•Many dipole magnets•Small dynamic aperture•Large rings
Too high an emittance
•pm-rad difficult but possible
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• Use undulator insertion device for emittance transformation that preserves exey <ex+ey (ex>ey) to get round beam
Flat, unequal emittances beams
Too long for short photon pulse
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•Great LCLS success•Mushrooming everywhere•Possibility of operating at higher charge for larger photon flux•Quest for single spike coherent pulse:• Seeding with high harmonic of a laser• Echo, successful experiments @ SLAC
•Operation at very low charge (<1pC?)
Linacs:
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Parameters between storage rings and linacs: large average current (SR) and short bunches (linac)Challenge: injector for CW operation, SC system.
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Challenges and possible progress with all photon source drivers, including plasma-based ones!
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P. Muggli, Summary EuroNAAc 11Many (collaborating) institutions
France
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All (geographically) close to each other
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Number of institutions, “satellite”, laser systems (ILE, LAL, LCFIO, LLR, LOA, LPGP, LULI, LUMAT, CPhT, IRAMIS, IRFU, CEA – Saclay, SOLEIL)
➤ LOA «Salle Jaune» ~2x60TW after upgrade ➤ CEA/IRAMIS «UHI100» up to 100TW ➤ LASERIX (2J, 40fs), dedicated for X-ray laser facility, also LUIRE pump
laser
New kids on the block …
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Very large experimental area!
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France
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Elements of a plasma based collider:
Conventional + Plasma
Plasma + Plasma
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HEP orientation with quality beams at two main facilitiesOther physics/applications at satellite facilities
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Program for RF-gun beam injection in LWFA, TS scattering, PWF with bunch train
Italy
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Aim at: 250TW, 25fs, 10Hz
Preliminary LWFA results
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24/7?
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Italy
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Main objectives: -injection of photo-injector bunch in FLAME-driven LWFA-Thomson scattering
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Good bunch quality can be produced, preserved emittance
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Italy
PWFA oriented
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Drive laser manipulation and velocity bunching, emittance compensation for bunch current manipulation
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Facility in existence
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Echo-like experiment
Train of bunches for large transformer ratio experiments, i.e., large energy gain5GV/m, 3 bunches, 100pC/bunch, lp=300µm (ne≈1016cm-3)
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Bunch, not particle acceleration!
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FEL applications of multi-bunch trains?
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(of electrons!!!!!!)
Germany International
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Motivation: a single LHC p+ bunch has enough energy (Joules) to produce a TeV, ILC-like electron bunch in a single PWFA!
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No short p+ bunches => rely on self modulation!Measure bunch modulation, injected low energy e- gain energy
10m, Epeak~1GV/m
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LoI to be submitted to CERN in JuneExperiment in 2015?Launch program for 50-1000GeV electron bunches from a single PPA!
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Encouraging initial results
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P. Muggli, Summary EuroNAAc 11Strong simulation support
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France:LUIRE (ILE – ENSTA) : 2011 15J / 30fs 1 shot/min 0.5 PW1 shielded experimental area electron & proton acceleration, x-raysAPOLLON (ILE – 2014) 150J / 15fs 1 shot/min 10 PW 1023 W/cm2
Large shielded experimental areaLong focal length program Short focal length program• Electron acceleration • Ultrahigh intensities (ultra relativistic) • Betatron x-ray sources • Ion acceleration (e.g. RPA) • Undulators to generate x-ray beams • High-harmonic generation on solids • High-harmonic generation in gases • Ultrashort sources• Flying mirror in gases • "Solid" flying mirror
• HED physicsSome emphasis on HEP applications (injection, staging, single shot diagnostic, stability, etc.)Linac available for injection (~5MeV)
Italy:FLAME: 250 TW, 30fs, 10 Hz system, contrast >1010, pointing <2µm at focal spotShielded experimental areaLinac for external injection into LWFA and Thomson scatteringLinac for large transformer ratio PWFAFEL, imagingVery complete facility
Summary of Summary
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P. Muggli, Summary EuroNAAc 11
Germany (Munich)
Imaging: Thomson, LWFA-FEL,Treatment: LWFA e- and ion acceleration
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Germany (Munich) and …
SPS, 450GeV, 1011 p+ to accelerated externally injected e- to 1GeV in 5-10mSubmit LoI June 2011Submit proposal 2012Start of experiment in 2015Long term program to accelerate electron bunch to 50-1000GeV in a single PWFA
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P. Muggli, Summary EuroNAAc 11
Trends:Larger lasers: 100TW -> 1PW -> 10PW -> higher energyHigher rep. rates: 1/min. -> 1Hz-> 10HzMore (laser, particle) beam linesMore injection (“all optical” or from rf-sources)More diverse experiments: few LWFA (HEP), more photons (b-tron, FEL, Compton), more p+ source, more PWFA
-> more applications in the longer term Longer plasmas -> guidingMore stabilityMore reproducibility
Desire for more dedicated facilities needed to make rapid progress toward LWFA-FEL and PLIC (plasma-based linear collider)?
Thank you to all speakers!
(I suggest to circulate a empty table to fill to gather all requested parameters)
•Plans for development of facilities with schedule•5 year perspective (level of approved support: funded/proposed/idea)•Motivation and objectives•Acceleration goals (summary table)•Application goals•Possibilities for open access•Expectations for network