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LCLS Overview John N. Galayda, SLAC May 21, 2003. Project Status Project Management The Next Two Years. The World’s First Hard X-ray Laser Introduction. Capabilities. Projecct Description. Spectral coverage: 0.15-1.5 nm. Capabilities. Projecct Description.
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LCLS OverviewJohn N. Galayda, SLACMay 21, 2003 • Project Status • Project Management • The Next Two Years John N. Galayda, SLAC
The World’s First Hard X-ray Laser Introduction John N. Galayda, SLAC
Capabilities Projecct Description Spectral coverage: 0.15-1.5 nm John N. Galayda, SLAC
Capabilities Projecct Description Spectral coverage: 0.15-1.5 nm To 0.5 nm in 3rd harmonic Peak Brightness: 1033 Photons/pulse: 1012 Average Brightness: 3 x 1022 Pulse duration: <230 fsec Pulse repetition rate: 120 Hz John N. Galayda, SLAC
Capabilities Projecct Description Spectral coverage: 0.15-1.5 nm To 0.5 nm in 3rd harmonic Peak Brightness: 1033 Photons/pulse: 1012 Average Brightness: 3 x 1022 Pulse duration: <230 fsec Pulse repetition rate: 120 Hz Upgrade – more bunches/pulse John N. Galayda, SLAC
SLAC Linac Undulator Hall Two Chicanes for bunchcompression FFTB Tunnel Near Hall Far Hall Projecct Description Linac Coherent Light Source Project Description John N. Galayda, SLAC
Photon Beam Handling Systems • X-ray Transport, Optics and Diagnostics • Front end systems – attenuators, shutters, primary diagnostics • Optics – the prerequisites for LCLS experiments • X-ray endstation systems Hutches, Personnel Protection • Computer facilities for experiments • Laser for pump/probe experiments • Detectors matched to LCLS requirements • Essential Infrastructure for the LCLS Experimental Program Projecct Description Linac Coherent Light Source John N. Galayda, SLAC
Project Schedule John N. Galayda, SLAC
Project Costs John N. Galayda, SLAC
Estimated Cost, Schedule Readiness • $200M-$240M Total Estimated Cost range • $245M-$295M Total Project Cost range • Schedule: • FY2003 Authorization to begin engineering design • Emphasis on injector and undulator • FY2005 Long-lead purchases for injector, undulator • FY2006 Construction begins • January 2007 Injector tests begin • October 2007FEL tests begin • September 2008 Construction complete John N. Galayda, SLAC
UCLA LLNL LCLS R&D Collaboration Readiness FEL Theory, FEL Experiments, Accelerator R&D, Gun Development, Undulator R&D John N. Galayda, SLAC
UCLA LCLS Project Engineering Design Organization Readiness John N. Galayda, SLAC
SLAC-DESY/TESLA FEL Collaboration Readiness • January 2000 Memorandum of Understanding • SLAC-DESY-KEK FEL R&D • SLAC will deliver a bunch length measurement system to TTF • Expanded SLAC-DESY Collaboration, November 1 2002 • Sub-Picosecond Photon Source at SLAC (SPPS) • 9 kev x-rays using SLAC linac and Final Focus Test Beam • 12/2002-5/2003 DESY personnel participate in commissioning • 2003-2006 DESY will join in SPPS experiments • TESLA Test Facility • 2003-2004 SLAC personnel will participate in commissioning • 2005-2006 SLAC participation in experiments to control temporal coherence • LCLS • 2007-2008 TESLA-XFEL Participation in tests of optics • TESLA • 2011—SLAC participation in TESLA-XFEL Commissioning John N. Galayda, SLAC
LCLS in the Future • Expandability, upgrade ability of the LCLS • Higher peak brightness • Multiple endstations per undulator • Multiple undulators • Higher average brightness John N. Galayda, SLAC
End of Presentation John N. Galayda, SLAC