Configuration for AARD injector CRYO3 BC2 CRYO4 CRYO1 CRYO2 8.554 98.959 X105 • Phase 1 (first beam): two cryomodules • Phase 2: 3 cryomodules +BC2 (?) • Phase 3: 3 cryomodules + BC2 + 4th crymodule •Five user areas: • 2 at low energy (~ 40 MeV) • 3 at high energy
Configuration for AARD LE exp. Area 1 st cryomodule flat beam deflecting beam dump electron gun booster cavities transform mode cavity spectrometer 3 rd harmonic magnet cavity chicane test beamlines beam dump HE exp. Area 3 high intensity downstream end quad doublets matching section dumps of last 15° bends for beam and emittance experimental cryomodule blowup at dump measurement area 1 experimental area 3 5ft energy measurement 2 energy measurement 1 experimental area 2 possible 3 rd beamline 35 meters
NEED high-peak-current low-emittance beam WOULD benefit from compressed beam with low emittance WOULD benefit from compressed beam with low emittance Experiment Energy proponent Motivation/ application Long. transverse EEX low FNAL/ANL Proof-of-principle; possible application in FELs and X-ray sources Slit microbunching generation low FNAL For wakefield investigations; Ellipsoidal beam generation low NIU/FNAL Low emittance beams (egun) Microbunching investigations low, ANL/FNAL Beam physics; diagnostics high? ODR instrumentation high ANL/FNAL Non-invasive emittance diagnostic development Flat beam transform and low FNAL/NIU Compact UV/ soft X-ray source image charge undulator Flat beam transform high LANL Proof-of-principle for MaRIE Emittance exchange high LANL Proof-of-principle for MaRIE 6-D muon cooling high IIT/FNAL Proof-of-principle for muon collider Optical stochastic cooling high IIT Proof-of-principle; muon collider γ -ray enhancement by crystal high ANL Unpolarized e + source channeling High gradient wakefield Low?, ANL/NIU many acceleration with dielectric high? structures
Experiment Energy proponent Motivation/ application PIC lattice test high FNAL/Muons Muon collider Inc Reverse emittance exchange Low?, FNAL/Muons Muon collider high? Inc Dielectric Wall Accelerator Low? FNAL Muon collider; induction linac section high? Measure plasma wakes with high USC Application to 2-beam plasma long bunch trains acceleration Measure plasma wakes with high USC Application to 2-beam plasma laser interferometry acceleration Photoproduction of muons @ high FNAL Homeland security; verify 300 MeV production model Test of integrable beam optics high FNAL Proof-of-principle; future high current proton machines
Beam size at IP (OLD)
Beam size at IP (OLD)
Recommend
More recommend
