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Test Facilities and Component Developments

Test Facilities and Component Developments. Sami Tantawi SLAC May 15, 2008. High Gradient Research Facilities at SLAC. We concentrated on being accessible to the rest of the collaboration through Improving our test facilities 2-pack

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Test Facilities and Component Developments

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  1. Test Facilities and Component Developments Sami Tantawi SLAC May 15, 2008

  2. High Gradient Research Facilities at SLAC We concentrated on being accessible to the rest of the collaboration through Improving our test facilities 2-pack new modulator have been installed and the system will be under vacuum and run for the first time in 5 years in the spring of 2008 ASTA powered by two 50 MW Klystrons whose 1.5 us pulses are combined and compressed using SLED-II expected to produce up to ~ 500 MW Cost effective testing through reusable couplers and supply compatible flanges. Hence, other groups need only to worry about the design of the accelerator structure “proper” We are introducing new types of gate valve to minimize, time, effort and cost for installation of different experiments a very versatile pulse length and output power ASTA was put back together and started its initial commissioning in Jan 2008. individual stations: Two Individual Stations, each have 1 50 MW klystron with 1.5 us pulse width. very productive, more than 12 experiments have been conducted in these stations in 2007 NLCTA Station 1 and 2 each are powered by two 50 MW Klystrons whose 1.5 us pulses are combined and compressed using SLED-II and Have two, 2.5 m slots for structures. It Can run 24/7 using automatic controls Six week run of CERN HDX11-Mo quadrant structure - gradient at a 10-6 breakdown rate with 70 ns pulses only 60 MV/m. Run slotted, a/l = 0.18, 75 cm NLC structure (H75vg4S18) with 150 ns pulses - at 102 MV/m, breakdown rate = 6 10-6. Run early NLC, non-slotted, 53 cm, smaller aperture (a/l = 0.13) structure (T53vg3MC) at short pulses - gradient at a 10-6 breakdown rate with 100 ns pulses is 105 MV/m. Have ran about 2200 hours since structure installed in 4/07

  3. Pulse compressors at ASTA and Two-Pack All New overmoded components for high reliability (So that we are testing structure rather than RF system) Flexible pulse length and gain High efficiency Each is powered by two klystrons

  4. ASTA Pulse Compressor Up to 700 MW at 56 ns 100 MW Two Experimental stations Commissioned and at the moment we have 25 MW at 150 ns pulse width powering a single cell traveling wave accelerator structure From The two Klystrons (2 x 50 MW)

  5. Components To Support The Experimental Facilities Tee for variable iris Bends for low loss transmission and reliable RF systems Dual moded delay lines with variable delay for a flexible pulse width All these components have designed and in different stages of manufacturing

  6. ASTA (Continued) The uncompressed arm has a variable phase shifter and a gate valve The ASTA pulse compressor with variable delay delay-lines( Miller cup)

  7. ASTA • ASTA has been rebuild and is being commissioned with two test stations, one with a pulse compressor and another with out. Two feeds for the two experimental stations inside the ASTA bunker The ASTA pulse compressor with variable iris

  8. Gate Valve We have designed a new type of gate valves to allow fast exchange of experimental structure. This will cut the change time from a week to one day (so far it has been tested to 300 ns at 100 MW) A. Grudiev, “Development Of A Novel Rf Waveguide Vacuum Valve,” Proceedings of EPAC 2006, Edinburgh, Scotland

  9. Circular TE01 Mode Slide Phase Shifter cold test results @ 11.424 GHz, |S11| = -41 dB to -27 dB simulation design ~3% loss mostly from mode launchers 10.82°/turn ~112° range

  10. TE01 Mode Tee (Variable Iris) ~25 cm • The Tee body is planer rectangular guide operating in the TE20 • We Taper from Circular to Rectangular with a special taper which generate the TE01 mode

  11. ASTA Pulse Compressor Cold Tests Test with a dual-mode in the delay line ( the Miller cup is tuned for two modes) Test with a single mode in the delay line With input pulse modulation one gets a gain of about 3 at 266 ns and a gain of about 2 at 399 ns

  12. Low-Level RF and Data Acquisition Satellite Receiver LNB Custom Board with Power Detector and Coherent Power and Phase Detectors

  13. High-Power RF Load Research • CeSiC Material • High Thermal Conductivity ~equivalent to Al • Electrical conductivity is about 65 (Ohm cm)-1 • Research on mechanical properties and manufacturing techniques is under way • High power tests are planed.

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