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David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF April 29-30, 2004 Injector Physics / Diagnostics / Gun & L0 Linac.

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Presentation on theme: "David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF April 29-30, 2004 Injector Physics / Diagnostics / Gun & L0 Linac."— Presentation transcript:

1 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 Injector Physics / Diagnostics / Gun & L0 Linac RF Design D. H. Dowell, SLAC FAC Review April 29-30, 2004 Injector Requirements Injector Configuration Nov 3, 2003 Injector Technical Review Comments and Response Pulsed Heating of 120 Hz Gun Long Pulse Option Laser Heater Gun Diagnostics and Commissioning Gun Solenoid Field Quality Dual RF Feed on L0-1 Accelerator Section Straight Ahead Diagnostics Cathode Damage

2 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 LCLS Injector Performance Requirements:

3 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 Slice Emittance Requirements  projected < 1.2 mm.mrad  slice < 1.0 mm.mrad for 80 slices out of 100  slice (80%) projected emittance for the core 80 slices

4 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 LCLS Injector Configuration RF Gun Load Lock Transverse RF Cavity Laser Heater DL1 Bend Straight Ahead Spectrometer L0-1 & L0-2 3-m SLAC Sections Gun Diagnostics

5 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 Nov 3, 2003 Injector Review Committee Recommendations and Concerns Pulsed Heating of Gun Coupling Irises (Study underway, completed L0-1 dual feed) Eliminate gun tuners (Under consideration, include with field symmetrization) Two stages of gun commissioning (Not possible given budget + schedule + space; Make extensive use of diagnostics in GTL) Gun optimization using diagnostics (19-parameter problem => needs detailed commissioning plan) Spontaneous radiation from laser-heater undulator for e-beam diagnostics Long bunch experiments at GTF, SDL, etc. (Planning expts. at BNL/DUVFEL) Prototyping of load lock porcupine concept (Performed during engineering) Need commissioning plan using diagnostics, need more diagnostics (diagnostics available, still need detailed commissioning plan) Include streak camera measurement at gun (EO maybe unreliable) (Streak Path to Laser Bay included in design) S2E using non-optimal injector performance (Not yet done) More operating time at GTF (GTF is now operating) Injector layout indicates vault is too small (Too expensive to enlarge vault) Use chicane to couple laser into laser-heater (Yes!)

6 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 Pulsed Heating of Gun Coupling Irises The maximum steady-state stress of 14 ksi occurs around the RF aperture. Analysis in progress by Zenghai Li and Liling Xiao, SLAC/ACD. (see work on L0-1 Linac Dual Coupler) Gun body stress in Pa

7 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 Increasing Bunch Length to 17.5 ps Reduces Emittance > Allows Smaller Laser on Cathode< Plots from C. Limborg, Injector Requirements, Nov 3, 2003 Injector Review More compression in Linac now possible with Laser Heater Experiments possible at BNL/DUVFEL during Dazzler tests

8 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 P 0 = 65 MW w 0  3 mm  x,y  0.1 mm  73.6 keV  73.6 keV Matlab laser-heater code (thanks to major help from Juhao Wu)

9 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 Horizontal emittance growth is small:  /  x0  ½(    x /  x ) 2 < 0.1%    4  10  4,  x  20 mm,  x  200  m 2 cm 10 cm 50 cm ~120 cm   5.7º Place undulator inside a chicane to allow laser interaction (thanks to Todd Smith, November 3 Injector Review) Slide compliments of P. Emma

10 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 P 0 = 2 MW w 0 = 400  m  x  200  m  y  200  m R 52 (=  x ) of chicane smears time coordinates after chicane  x' 2  1/2  x >>  (20  rad)(20 mm) >> (800 nm)/2 

11 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 Laser-Heater Parameters

12 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 WBS 1.2.15 Laser Heater

13 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 Gun to Linac Diagnostics Electron Measurements: Thermal Emittance Charge Energy Energy Spread Pulse Shape (streak camera & EO) Longitudinal Emittance by Streaking Spectrometer Screens Gun Spectrometer Resolution: 10 keV with Quads off 3 keV with Quads on

14 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 At Low Charge the Gun’s Compression Converts Temporal Modulation into Energy Modulation Plots from C. Limborg, Nov 3, 2003 Injector Review

15 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 Gun Solenoid Multipole Fields

16 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 L0-1 Dual Feed Coupler Design by Z. Li, SLAC/ACD

17 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 ++ b=35.95032 w=24.4000 dc=13.000 36.31233 t=5.84200 R=3.0861 tf=0.78740 19.09318 rough dimensions: skin and fillet not corrected for operation temperature Racetrack Dual Feed Eliminates Dipole and Quadrupole Field Perturbations in Coupler Cell Design by Z. Li, SLAC/ACD

18 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 Electron Diagnostics At 135 MeV

19 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 ~0.5 mm Beam Induced Damage to Cu Cathode Profilometer Measurements Using a 0.2 Micron Quartz Stylus

20 David H. Dowell Injector Physics/Diagnostics/Gun&L0 RF Designdowell@slac.stanford.edu April 29-30, 2004 Summary and Conclusions Discussed Nov 3 Review Committee’s Concerns Gun Diagnostics for Commissioning 17 Parameter Problem Still Needs Work Laser Heater Now Part of Injector System Measured Field Multipoles of Gun Solenoid Dual RF Coupler Designed for L0-1 Similar Issues in Dual Feed RF gun Dual Coupler Design for Gun is Next (Including Pulsed Heating) Straight Ahead Diagnostics for Commissioning Cathode Damage Effects

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