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A New Stripline BPM Design for the ILC IR Fast Feedback (?!) – For discussion: A metal/ceramic brazed BPM pickup – 9/19/2007ILC IR Engineering Design Workshop,

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Presentation on theme: "A New Stripline BPM Design for the ILC IR Fast Feedback (?!) – For discussion: A metal/ceramic brazed BPM pickup – 9/19/2007ILC IR Engineering Design Workshop,"— Presentation transcript:

1 A New Stripline BPM Design for the ILC IR Fast Feedback (?!) – For discussion: A metal/ceramic brazed BPM pickup – 9/19/2007ILC IR Engineering Design Workshop, SLAC 1 Manfred Wendt Fermilab

2 IR Feedback BPM Pickup (Some) requirements for the IR feedback BPM pickup: –Separate e - and e + beam signals (in case of a single pipe for incoming and outgoing beams) –Sufficient bandwidth (for bunch-by-bunch signal processing) –Minimum real estate demands –Insensitive to background particles from the IP Stripline BPM pickup detector: –Directional coupler principle, supplies e - and e + beam signals at separate output ports. Good RF performance. –Directivity restricted by the physical layout of the coupling line to UHV feedthrough output line transition. –Many mechanical/electrical issues, e.g. rigid construction (no microphonics), precise alignment (50 Ω match) of the electrodes, minimum VSWR through the ports! 9/19/2007ILC IR Engineering Design Workshop, SLAC2

3 FLASH/TTF Stripline BPM (DESY) Complicated mechanics –Assembly, electrode alignment, feedthroughs, electrical contacts, brazing, VSWR optimization, etc. 9/19/2007ILC IR Engineering Design Workshop, SLAC3

4 ILC IR Stripline BPM 9/19/2007ILC IR Engineering Design Workshop, SLAC4 UHV tight brazed Al 2 O 3 ceramic substrate, printed with a 6 mm wide stripline electrode on the external “air” side “Air” side Up- and downstream ports (“air” side) Vacuum pipe, 20 mm diameter No UHV RF feedthroughs. Rigid construction. Flexible RF optimization in the transition area, no UHV! Extended electrical length, but needs termination! Coupling slot, 7mm wide

5 2D Simulation Results 9/19/2007ILC IR Engineering Design Workshop, SLAC5 Stripline electrodes: –6 mm wide on 2.5 x 14 mm Al 2 O 3 substrate (ε r = 9.4) –Metallic cover at 3.5 mm distance –Characteristic impedance Z 0 = 50 Ω –Effective dielectric constant: ε eff = 2.067 –Beam-to-electrode coupling (centered beam): 5.34 % (7mm wide coupling slot) –Position sensitivity: 1.8 dB/mm Normalized difference equipotentials εrεr air vacuum stripline

6 Δ/Σ Position Characteristic 9/19/2007ILC IR Engineering Design Workshop, SLAC6

7 Transfer Impedance k: coupling coefficient (~5 %) Z 0 = 50 Ω l: physical electrode length, e.g. 100 mm v 0 = c 0 /  ε eff ≈ 2.1 10 8 m/s –Center frequencies at: (2n-1) f c ≈ 530 MHz –Bandwidth of the lobes: f BW,3dB ≈ 530 MHz 9/19/2007ILC IR Engineering Design Workshop, SLAC7 k

8 Preliminary Summary Conceptual design of a compact stripline BPM pickup. No UHV RF feedthroughs required. However, needs an UHV ceramic/metal brazing process! Requires broadband port termination, e.g. using diplexers based on 90 0 -hybrids. Offers flexible optimization of the stripline to output port transition, not in vacuum! Possible next steps(???!!!): –Full 3D electromagnetic modeling and optimization. –Evaluate sensitivity to IP background. (WHO?) –Prototyping and RF characterization on the test bench. –UHV prototype, beam measurements?! 9/19/2007ILC IR Engineering Design Workshop, SLAC8

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