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Working Group F: Diagnostics and Instrumentation for High-Intense Beams – Summary – Manfred Wendt for the Working Group F contributors 8/29/2008HB2008.

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Presentation on theme: "Working Group F: Diagnostics and Instrumentation for High-Intense Beams – Summary – Manfred Wendt for the Working Group F contributors 8/29/2008HB2008."— Presentation transcript:

1 Working Group F: Diagnostics and Instrumentation for High-Intense Beams – Summary – Manfred Wendt for the Working Group F contributors 8/29/2008HB2008 WG F: Diagnostics Summary 1

2 WG F: Overview Presentations and Discussion: –3 sessions, 330 min total –13 presentations. Thanks to the speakers(!), and to all participants! –Discussions between presentations –Joint discussion with Working Group D: Operations Hot Topics: –Beam loss monitoring (10 -6 -10 -7 ) and MPS! –Transverse beam profile / emittance measurement –Novel, non-invasive beam monitors (e.g. IPM, H - laser wire, e-beam profile monitor) –Transverse and longitudinal beam halo / tails –Save and reliable operation of high intense beam. –Overview on beam diagnostics of current, and future facilities. 8/29/2008HB2008 WG F: Diagnostics Summary2

3 SCL 12345321712131415 250 m 227 m25 m160 m LR Laser room Laser wire station Cryomodule number Camera Mirror Power meter 32 LR Ring S. Assadi: SCL Laser Wire System CCLDTL Target MEBT 4 LW from 200 MeV 4 LW from 450 MeV 1 LW at 1 GeV 8/29/20083HB2008 WG F: Diagnostics Summary

4 600750 MCP Phosphor screen Photo camera Layout of the proposed EBP for SNS Accumulator Ring by BINP Electron Gun Deflector Quadrupole lens Proton beam S. Assadi: e-Beam Profile Monitor 8/29/20084HB2008 WG F: Diagnostics Summary

5 C. Allen: Noisy Wire Profiles 8/29/2008HB2008 WG F: Diagnostics Summary5 Measurement Measurement and fit Measurement 80 points Measurement and fit Only 50 points Measurement Measurement and fit

6 M. Wendt: Future Accelerator Diagnostics 8/29/2008HB2008 WG F: Diagnostics Summary6 µ-to-e MTA beam-line HINS NML NOvA Project X (8 GeV SCRF linac) DUSEL beam-line

7 Cold BPM for the Project X Cryomodule 8/29/2008HB2008 WG F: Diagnostics Summary7 ILC type cold CM-free L-Band cavity BPM cavity waveguide FFT for y port signal Project X / NML type cold CM-free L-Band cavity BPM

8 T. Toyama: PropChamber Loss Monitors 8/29/2008HB2008 WG F: Diagnostics Summary8 800 mm Anode wire  50  m Pt HV cathod I.D.  23 mm stainless steel Effective area Ar 99% + CO 2 1%: 1.1 atm Sensitivity 200 nC / rad x gain (calculation) gain ~ 60000 (~2 kV) RG59/u 8DFB Cosmic ray point-like loss <100ns @3-50BT collimator Saturation of the processing circuit, NOT of the head (?) To be checked Preliminary

9 A. Zhukov: SNS BLM System  Argon filled, 113 cc volume, 2 kV bias.  Response 70 nC/Rad  Slow ~1 μS (charge collection) 8/29/2008HB2008 WG F: Diagnostics Summary9  Scintillator  PMT  Response 50 pC/MeV  Fast ~10 nS 1 mS X-ray Beam loss Scintillator / PMT –For low use at beam energies –Cavity X-ray sensitive Noise Problems with BLM signals

10 B. Pellico: Fermilab Booster Diagnostics MI-8 beam-line WCM & fast scope Data analysis software provides –Bunch intensity, length, phase –Longitudinal modes –Mtn. range, contour, xy-plots 8/29/2008HB2008 WG F: Diagnostics Summary10 Mode Line Bunch Intensity Bunch Length

11 T. Gorlov: SNS Allison Scanner 8/29/2008HB2008 WG F: Diagnostics Summary11 Distribution of current in phase space obtained by the scanner I(x,x’) Measurements of rms emittance and Twiss parameters Computation without space charge Computation with space charge Original Gaussian emittance distribution error=2.5 % error=17.5 %

12 J. Pozimski: Beam Diagnostics at RAL 8/29/2008HB2008 WG F: Diagnostics Summary12

13 I. Aliseda: HEBT Diagnostics for IFMIF International Fusion Materials Irradiation Facility –Characterization of materials –High neutron flux (10 18 n/m 2 /sec) –Early design stage 8/29/2008HB2008 WG F: Diagnostics Summary13 P. Garin, IFMIF: status and developments, EPAC08, p. 974 (2008) Neutron flux density Beam footprint at interaction point Accelerator Target Irradiation module Heat extraction by fast liquid Li D+D+ Li flux Samples neutrons ~10 17 n/s 2 acc. In parallel EM bomb Heat exchanger Deuterons: 40 MeV 250 mA (10 MW) 20-50 dpa/y in 0.5 l T: 250<T<1000 ℃ Facility availability >70% 20 cm 5 cm

14 C. Deibele: SNS Wideband FB System PA: 1-300 MHz, 400 W, class A Stripline kicker, pickup Digital FB electronics 8/29/2008HB2008 WG F: Diagnostics Summary14 10 uC e-p instability

15 S. Payne: Beam Diagnostics at ISIS 8/29/2008HB2008 WG F: Diagnostics Summary15 Fibre bundles PXI System Commercial read-out hardware –Reliability issues –Hard disk locks up

16 8/29/2008HB2008 WG F: Diagnostics Summary16 0 2 4 6 8 10 5 6 7 Dipole 2 Straight 2Straight 1 2 3 4 10 98 R2BLM2R2BLM3 PM tube 1

17 K. Satou: J-PARC MR Diagnostics (IPM) Ion collection with HV 35kV for day-one ⇒ will be upgraded to 50kV Electron collection with magnetic field Require for 0.75MW beam profile measurement ⇒ future plan Micro Channel Plate (MCP) for signal read out device 2 stage MCP assembly with 32 ch strip anode Active area: 31×81 mm 2 Width of each anode: 2.5 mm Gain: ~10 6 Calibration devise to check MCP gain balance Electron generator arrays ⇒ Photonis Ltd. Need averaging to reduce the statistical error due to number of detected ions Number of ions is about a several 10000 per bunch for designed beam, that is only a several hundreds for day one beam Even for designed beam, we need averaging to measure beam tail region in good resolution 8/29/2008HB2008 WG F: Diagnostics Summary17 130mm 35kV 33kV EGA MCP Electrode Voltage divider 100MΩ resister Ceramic bushing HV feedthrough Cross section of V-IPM

18 S. Childress: Beam Diagnostics for 2 MW 120 GeV 8/29/2008HB2008 WG F: Diagnostics Summary18 ~1 E-5 Loss from profile monitor Extraction Primary Beam Loss – Mixed Mode (NuMI beam ~300 kW) –Average per pulse for one month

19 WG D & F: Joint Discussion Recording of Radiation dosimetry from machine startup –Compare BLMs and TLDs Beam loss monitoring –BLM coverage –Compare BLMs and power losses –Calibrate BLMs with tiny beams under controlled, forced beam loss conditions –Monitoring of the beam on the target High radiation levels, camera lifetime Phosphor coating (non-linearites), tungsten mesh, thermal imaging Beam halo –IPMs (J-PARC) with dedicated MCPs for beam core and tails, 10 -4 sensitivity IPM issues: e-cloud, upstream beam losses –Crawling wire and BLM –Crystal collimator (bending, reflection of beam halo) –BLM calibration using thin multiwires in the 10 -6 – 10 -7 regime Longitudinal bunch distribution, phase space measurements –Wire at fixed position (resolve arrival time), electro-optical sampling(?) Beam gap monitoring (10 -9, beam gap extraction -> BLM) Long term stability of BPM data (automatic calibration systems) 8/29/2008HB2008 WG F: Diagnostics Summary19

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