Screen investigations for low energetic electron beams at PITZ
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1 1 Screen investigations for low energetic electron beams at PITZ S. Rimjaem, J. Bähr, H.J. Grabosch, M. Groß Contents Review of PITZ setup Screens and beam profile monitors at PITZ Test results Summary
2 Optimization of L- band Photo Cathode RF PITZ 2 Photo cathode (Cs 2 Te) QE~0.5-5% 1.6 cell RF un NC (copper) Coaxial RF coupler Cathode laser Bucking solenoid Main solenoid, Bz_peak~0.2T Electron bunch Mirror in vacuum Parameter Value Max. RF repetition rate 10 Hz Max. RF power 6 MW peak power Max. RF pulse length 800 s No. of pulses / train Bunch spacing s Max. bunch charge a few nc
3 Current PITZ Setup (PITZ1.8) high energy section (p z ~24.8 MeV/c) low energy section (p z ~6.7 MeV/c) 3 booster RF gun Trans. projected emittance & phase Emittance Measurement SYstem (EMSY) Trans. phase space Tomography module
4 Measurements of Transverse Projected Emittance & Phase Space 4 Single slit scan technique EMSY stations consist of horizontal / vertical actuators with / OTR screens 10 / 50 m slits Beam size is EMSY position Beam RMS sizes: mm Beam divergence is estimated from beamlet observation screen Minimum beamlet RMS sizes: ~50 m Phase space reconstruction tomography module consists of 3 FODO cells 4 screen station Phase advance of 45 o Beam size is measured with a / OTR screen Minimum beam RMS sizes: 120 m Observation screen 2.64 m EMSY1 (z = 5.74 m)
5 Ce-doped Yttrium Aluminum Garnet () Powder Coating Screen 5 Chemical formula Y 3 Al 2,5 Ga 2,5 O 12 :Ce Thickness of powder layer 5-20 m Density of power 5.1 g/cm 3 Thickness of silicon substrate 100, 275, 380 m Density of silicon substrate 2.33 g/cm 3 Incident angle 90 o Resolution of beam image Beamlet image from 10 m slit ( ) Beam momentum ~14.7 MeV/c 1.76 m from slit position Detail structure of image ~50 m Vertical RMS size <70 m Wavelength of peak emission 510 nm screen viewed by 12 bits camera ~ 60 m 3 mm 3 mm 14.6 mm 14.6 mm ( measured by microscope)
6 Optical Transition Radiation (OTR) Screen 6 OTR screen 45 o e-beam Mirror Lens CCD camera Material Thickness of silicon wafer Incident angle Consider wavelength range Si-wafer with Al coating 100 or 275 m 45 o nm Beam energy increase from ~15 to ~25 MeV (energy) ~10 MeV (intensity) ~40% intensity (a.u.) Optical aperture of 0.2 rad (~11.5 o ) electron energy (MeV)
7 Wire Scanner (WS) 7 Wire material Wire size Average step size used in measurements tungsten 20 m 100 m Measured beamlet Y-profile from 50 m slit Measured with two straight wires (10 mm distance) 0.25 Voltage signal (a. u.) Y-position (mm) Reference: Grabosch, FEL2007 beam x-movement y-movement straight line was used in measurements
8 Chemical Vapour Deposition (CVD) Diamond Screen 8 thickness diameter Incident angle High thermal conductivity Emission wavelengths 100 m 30 mm 45 o 5 times higher than Cu nm Reference: M. Degenhard, CVD Diamond Screens for Beamline Diagnosis at PETRA III, not yet publish
9 Comparison of screen and wire scanner (WS) 9 WS (z = 9.47 m) H1.S4 (z = 8.34 m) H1.S5 (z = 8.92 m)
10 screen and wire scanner (WS): beam size & profile 10 rms beam size (mm) H1.S4 H1.S5 WS rms beam size (mm) H1.S4 H1.S5 WS 0.55 m 0.58 m z-position (m) (pc) rms beam size: bunch charge (pc) xy x y X-profiles for Q~500 pc Fixed parameters: Momentum ~24.5 MeV/c 1 bunch per train Focusing (fixed main solenoid current) Camera gain: 2 db for H1.S4, 7 db for H1.S5 Varied parameters: Bunch charge ~ 0.1, 0.2, 0.4, 0.6, 0.8, 1 nc
11 Comparison of and OTR Screens 11 H1.S5 (z = 8.92 m) H1.S4 (z = 8.34 m) comparison of beam size between and PST.Scr1-4 * use 12 bit camera and adjusted camera gain and no. of pulses to have intensity a bit below saturation
12 and OTR screens: comparison of RMS beam size 12 RMS beam size: xy x xy : geometrical mean RMS size x : horizontal RMS size y : vertical RMS size OTR (%) 100% OTR y Included correction of different optical path length for and OTR - Not yet corrected for depth-of-field from 45 o mounting configuration Fixed parameters - Momentum ~24.8 MeV/c - No. of bunch per train: 1 - Camera gain - Focusing (solenoid & quadrupole) < x > ~ 16.8%, < y > ~ 14.9%, < xy > ~ 15.8% Screen station screen OTR screen x (mm) y (mm) x (mm) y (mm) PST.Scr PST.Scr PST.Scr PST.Scr
13 and OTR screens: comparison sensitivity 13 intensity per bunch (%) factor of ~25 OTR charge (pc) intensity per bunch (%) 1000 OTR camera gain intensity per bunch = intensity per bunch per charge Intensity is linearly proportional to bunch charge H1.S4 Fixed parameters: Momentum ~24.8 MeV/c Camera gain: 2 db Varied parameters: No. of bunches per train Focusing (adjusted solenoid current to have the same beam area) Intensity is linearly proportional to camera gain H1.S5 Fixed parameters: Momentum ~24.8 MeV/c Bunch charge: (200 pc), OTR (1 nc) Varied parameters: Camera gain No. of bunches per train Focusing
14 and OTR screens: dependence on momentum 14 rms beam size (mm) OTR intensity 1.E+05 1.E+04 1.E+03 1.E+02 1.E+01 1.E+00 OTR mean momentum (MeV/c) mean momentum (MeV/c) RMS beam size: xy x y Intensity = integrating intensity per bunch per beam area per charge RMS beam size and intensity vs. H1.S5 Included correction of beam size due to different optical path length Varied parameters: No. of bunches per train Bunch charge per train: (200 pc), OTR (1 nc) Camera gain Focusing (solenoid current)
15 and OTR screens: intensity distribution & projection profiles 15 wire scanner profiles OTR Signal ADC (a.u.) x-position (mm) screen shows more detail structure of the beam image & profile (OTR: smoothing image and profiles) Fixed parameters: Momentum ~24.5 MeV/c Bunch charge: 1 nc Focusing Signal ADC (a.u.) Camera gain: 1 db Varied parameters: y-position (mm) No. of bunches per train : 1 bunch OTR: 24 bunches
16 Comparison of and CVD diamond Screens 16 H2.H4 (z = m) Optical system is not yet optimized: measured beam size value was not yet reliable
17 intensity per bunch (%) and CVD diamond screens: sensitivity charge (pc) Integrating intensity vs. bunch H2.S4 Fixed parameters: Momentum ~24.8 MeV/c Camera gain: 20 db Varied parameters: No. of bunches per train Focusing CVD diamond factor of ~5 CVDdiamond 36%? CVDdiamond intensity per pulse (%) rms beam size (mm) factor of ~5 CVD diamond camera gain CVD diamond camera gain 17
18 and CVD diamond screens: dependence on momentum 18 rms beam size (mm) CVD diamond mean momentum (MeV/c) RMS beam size vs. beam H2.S4 Fixed parameters: Momentum: ~24.8 MeV/c Bunch charge: 1 nc Camera gain: 20 db Varied parameters: No. of bunches per train: (1 bunch), CVD diamond (5 bunches) Focusing (solenoid) 8.E+06 6.E+06 CVD diamond CVD diamond intensity 4.E+06 2.E+06 0.E mean momentum (MeV/c) Intensity = integrating intensity per bunch per beam area CVD diamond screen has more smoothing image and profiles
19 Summary & Outlooks 19 Properties of powder coating, OTR and CVD PITZ were summarized Test results of different screen type were presented Sensitivity: > CVD diamond > OTR OTR provided smaller RMS beam size than Screen Sensitivity RMS beam size 100 % 100 % OTR 4 % 84 % CVD diamond 20 % to be investigated Experimental tests to compare RMS beam sizes and beam profiles from wire scanner and from screen at two locations were performed with different bunch charges Results showed good agreement for both beam size and projection profiles
20 Acknowledgements 20 G. Asova for data taken at the tomography module Y. Ivanisenko and G. Vaschenko for information and discussions about optical systems PITZ members
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