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EUROTeV Diagnostics WP5

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Presentation on theme: "EUROTeV Diagnostics WP5"— Presentation transcript:

1 EUROTeV Diagnostics WP5
CAVBPM: Precision BPM. WBCM: Wide band current monitor. EUROTeV June Lars Søby, CERN AB

2 PBPM- deliverables Prototype PBPM: Report on bench tests:
Design and build prototype. Report on bench tests: Design and build high resolution (100nm), mechanical stable test bench. Develop front end electronics. Measure PBPM. Report on beam tests: Build 3 PBPMs with separate supports and test with CTF3 beam. EUROTeV June Lars Søby, CERN AB

3 PBPM-Requirements Aperture: 4mm Resolution: 100nm
Absolute precision: 10μm Rise time: <15ns EUROTeV  Dynamic range: ±1.5mm (15 bits) Linearity error: < 1% 24H stability: 1μm Vibrations <100nm Low frequency cutoff: 100kHz High frequency cutoff: 30MHz Bake out temperature: 150C Operating temperature: ~20C Vacuum: Torr ME  EUROTeV June Lars Søby, CERN AB

4 PBPM-beam parameters ILC CLIC Repetition rate 5Hz 150Hz
Beam pulse length 950μs 58ns Bunch spacing 337ns 267ps Bunch length 1ps 0.1ps Charges per bunch 2E10 2.5E9 Nb of bunches 2820 220 Peak current (LP 30MHz) 3220A (0.3A) 4023A Mean current per pulse 9.5mA 1.5A For CLIC the BPM’s are foreseen for the main Linac, with minimum one BPM per quadrupole i.e BPM’s. We need additional BPM’s for the accelerating structures which could bring the number up to EUROTeV June Lars Søby, CERN AB

5 WCM as a BPM The image current distribution on the circumference reflects the beam position. Intensity signal () = All resistor are voltages summed. Position dependent signal () = voltages from opposite resistors are subtracted. EUROTeV June Lars Søby, CERN AB

6 Inductive Pick-Up Electrodes are combined in pairs so that each transformer sees half of the load Frequency low cut-offs are limited by connection parasitic resistances and primary electrode inductance. Design: M. Gasior EUROTeV June Lars Søby, CERN AB

7 Inductive Pick-Up This is what we want to do!! EUROTeV June 22 2005
Lars Søby, CERN AB

8 PBPM Low sensitivity to beam spray, halo.
Independent on bunch spacing. Low longitudinal impedance. Low frequency FE electronics, could be passive  cheap. Sensitivity OK. Complicated design. Mechanical stability in 100nm range?. EUROTeV June Lars Søby, CERN AB

9 PBPM Fellow hired from September 2005.
L. Søby working 5% in 2005 and 25% in 2006 and 2007 EUROTeV June Lars Søby, CERN AB

10 EUROTeV Diagnostics WP5
WBCM: Wide band current monitor. EUROTeV June Lars Søby, CERN AB

11 WBCM- deliverables Report on BW limits: Improved prototype system:
3D EM simulations to identify high frequency limits. Improved prototype system: Modify design and simulate. Build new WCM and test on bench. Report on beam tests: Tests with CTF3 beam EUROTeV June Lars Søby, CERN AB

12 WBCM-Requirements Beam current monitor with > 20GHz band width for measurement of intensity and bunch to bunch longitudinal position. Main beams, drive beams and damping rings. EUROTeV  Low frequency cutoff: 100kHz Bake out temperature: 150C Operating temperature: 20C Vacuum: Torr 100kHz-20GHz WB signal transmission over 10-20m. ME  EUROTeV June Lars Søby, CERN AB

13 WCM Design: J. Durand, P. Odier EUROTeV June 22 2005
Lars Søby, CERN AB

14 WCM EUROTeV June Lars Søby, CERN AB

15 WCM Impedance 4 W Lf cut-off, direct output 250 kHz
Lf cut-off, integrator output 10 kHz Hf cut-off 7 GHz Number of feed thru 8 Gap length 2 mm Beam aperture diameter 40 mm Length 256 mm Flange type DN63CF Max temp. bake-out 150 ºC EUROTeV June Lars Søby, CERN AB

16 WCM EUROTeV June Lars Søby, CERN AB

17 WBCM Scientific associate hired from January 2006.
L. Søby working 5% in 2005, 25% in 2006 and 2007 EUROTeV June Lars Søby, CERN AB

18 Thank you for your attention
EUROTeV WP5 Thank you for your attention EUROTeV June Lars Søby, CERN AB

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