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FEL WG: Summary Kwang-Je Kim (Part I, Mo-Tu) Joe Bisognano (Part II, Th) Future Light Source WS 2010: FEL WG March 1-5, 2010 SLAC National Accelerator.

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Presentation on theme: "FEL WG: Summary Kwang-Je Kim (Part I, Mo-Tu) Joe Bisognano (Part II, Th) Future Light Source WS 2010: FEL WG March 1-5, 2010 SLAC National Accelerator."— Presentation transcript:

1 FEL WG: Summary Kwang-Je Kim (Part I, Mo-Tu) Joe Bisognano (Part II, Th) Future Light Source WS 2010: FEL WG March 1-5, 2010 SLAC National Accelerator Lab Menlo Park, CA The submitted manuscript has been created by UChicago Argonne, LLC, Operator of Argonne National Laboratory (“Argonne”). Argonne, a U.S. Department of Energy Office of Science laboratory, is operated under Contract No. DE-AC02-06CH11357. The U.S. Government retains for itself, and others acting on its behalf, a paid-up nonexclusive, irrevocable worldwide license in said article to reproduce, prepare derivative works, distribute copies to the public, and perform publicly and display publicly, by or on behalf of the Government.

2 FEL I: Monday and Tuesday  XFELO –Intro (KJK), Physics & performance (Lindberg), X-ray cavity issues (Shvyd’ko), Simulation (Fawley), XFELO@ European XFEL (Zemella), Grazing incidence mirrors (Barty)  Ultrafast SASE –Overview (Rosenzweig), 8-48 keV@LCLS ( Wu), Coherent SASE @SDL (Wang)  Soft x-ray oscillators and self seeding –SXO overview (Benson), Echo enhanced two O (Wurtele), Self Seeding ( Wu), Optics for Self seeding (Feng)  Science-FEL joint session –  -in and  -out HXS (Bergmann), SXS (Guo), Imaging (Jacobsen), Mössbauer (Cramer), PE (Parmigiani), What parameters? ( Bisognano) 2

3 TheLCLS demonstrated that the FEL principles are valid for x-rays. In the future, multiple directions with complementary capabilities are foreseen:  Hard x-rays with E e ~ 5-15 GeV –Intense pulses (  10 12 ) Higher repetition rate (  10 kHz with pulsed SCRF) Improving coherence with self-seeding, etc –Gentle pulses (  10 9 ) Ultrafast time-resolution (down to atto second) with single-spike SASE Ultra-narrow spectral resolution ( ~ meV) with XFELO Higher repetition rate up to MHz with CW SCRF  Soft x-rays with E e ~ 2 GeV –Various seeding techniques HGHG, Echo-enhanced, self-seeding Advance in laser techniques ( high power, HHG,..) Soft-x ray oscillators ? 3

4 4 FEL 1

5 5 FEL 2

6 6 FEL 1 FEL 2 FEL 3 Different FELs have complementary characteristics and applications!

7 KJK FLS 2010 March 1-5, 2010KJK 7 Hard X-Ray FEL Oscillator 7

8 APS Experiments on Synthetic Diamonds KJK KEK Dec 21, 2009 8 Regions of near-perfect crystal structures Thermal exp. coeff  ~ 2 10 -8 K -1 @ T=50 K

9 XFELO Optical Cavity  Technical issues –Diamond crystal Is theoretical reflectivity achievable? Heat load problem:   spread < 1 meV ? Radiation damage –Grazing incidence, focusing mirror for an XFELO (  =1  r to 0.25  r): Specs tighter than LCLS mirrors –Stability of optical elements  < 10 nr ?  Test set-up to verify angular tolerance at European XFEL 9

10 LCLS Mirror Specs (KB) KJK KEK Dec 21, 2009 10

11 Ultrafast SASE  Emittance scaling  low emittance  x ~ 0.1 mm-mr with Q < 1 pC  compression to  < 1 fs  SASE producing single spike  Investigate at atomic electron spatio-temporal scale  Low charge (10 pC) option at LCLS for 1.5-40 keV  Can be compact and cheap  Issues: –Inherent or accelerator stability –Atto-second timing and diagnostics 11

12 LCLS with Q=0.25 pC,  x =0.033  (Genesis) Deep saturation achieved Minimum rms pulse: 150 attosec Quasi-single spike, 2 GW

13 Soft X-ray FEL schemes  Seeded HG (HG cascade or Echo-enhanced) –NLS, NGLS  Oscillator –Challenging in mirror reflectivity, tolerance, and transmission  regenerative amplifier –An option for JLAMP ?  Self-seeding scheme for LCLS upgrade –6 nm to 6 Å –Variable line-width grating  An echo-enabled, tunable, two-oscillator scheme –Full coherence without seed laser –Inherent tunability and photon energy reach of EEHG 13 Oscillator 1Oscillator 2 Chicane 1 Chicane 2 Radiator

14 Science Drivers for FELs  What parameters are worth fighting for?  What photons enable edgiest science? –900eV vs 1 keV vs 1.2 keV, 12 keV,…etc –Polarization  What pulse lengths…? –1 ps, 100 fs, 10 fs, 1 fs, 100 as,…  What bandwidth?  What rep rate…? –1 kHz, 10 kHz, 100 kHz, 1 MHz,…, 1 GHz  What photon numbers/pulse are useful/tolerable?  Fluence (joules/area)?  How important is coherence – transverse, longitudinal, degeneracy  See this as a multidimensional matrix, with some elements highlighted

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