Cavity Vertical Test and Diagnostics Kitty Liao Second Open Collaboration Meeting on Superconducting Linacs for High Power Proton Beams.

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Presentation transcript:

Cavity Vertical Test and Diagnostics Kitty Liao Second Open Collaboration Meeting on Superconducting Linacs for High Power Proton Beams (SLHiPP-2)

Cavity Vertical Test and Diagnostics I.Introduction II.Second sound studies & quench analysis III.Thermometric system design & development IV.Summary & future work 23/5/2012-5/5/2012 Kitty Liao CERN BE-RF-SRF

I. Introduction – Diagnostics system hot (quench) spot II. second sound OST III. octopus optical inspection 33/5/2012-5/5/2012 Quench spot Second sound wave OSTs (Oscillating Superleak Transducer)  antenna (RF) Optical inspection camera (J. Chambrillion) Kitty Liao CERN BE-RF-SRF

II. Second sound Study on the SPL test cavity 3/5/2012-5/5/20124 Setup 27 SMD heaters – iris, equator, half cell area 8 OSTs Result heaters not in the coverage angle of an OST – no signal so far need to resolve – heater attachment on the cavity SMD heaters OST Kitty Liao CERN BE-RF-SRF

II. Cavity Quench Analysis discussion 1 3/5/2012-5/5/20125 Cavity quench at 3.1 MV/m (during helium processing), 2 K second sound v~ 16.8 m/s Repeated quench OST capture (10 data in 40 mins) 6 μs to go to max acc field: 8.6 MeV/m 28 μs breakdown time Kitty Liao CERN BE-RF-SRF

II. Where is the hot spot? ~ 2 K (16.77± 2 m/s) time-of-flight too short same problem among labs (Saclay, Fermilab, DESY) (x q, y q, z q ) (x OST, y OST, z OST ) Kitty Liao CERN BE-RF-SRF courtesy of Juliette Plouin

II. Search for “Fast Second Sound” - discussion ms pulse, 1.8K, max. heatflux= 6mW/cm 2, max. power = 6W; our quench power ~ 9 kW breakdown time ~ 28 μs the top OST receives faster signal than the side ones. (within 2 nd sound measurement error)  need a more appropriate source! 3/5/2012-5/5/20127 Kitty Liao CERN BE-RF-SRF

3/5/2012-5/5/20128 A. Iris – diodes B. main body –Allen-Bradley resistors (100Ω, 1/8W, ΔR/ΔT≈ 758 Ω/K); resolution 20 mm ~ 34 mm C. equator region – Allen- Bradley resistors; resolution: max. 23 mm III. Design & Development Octopus Thermometric System Kitty Liao CERN BE-RF-SRF

III. Octopus Thermometric System Fabrication – Octopus assembly 3/5/2012-5/5/ Without and with spring support test 2.2 nd PCB fabrication & flux cleaning investigation 3.mounting of AB sensors (96) Kitty Liao CERN BE-RF-SRF

3/5/2012-5/5/ ResistorsMUXµc boards 1/3 octopus96243 Half cell Complete cavity III. Octopus Thermometric System Fabrication – Acquisition board 0 Ω resistor -- bypass the amplification circuit Kitty Liao CERN BE-RF-SRF

III. Octopus Thermometric System – Software Development  Microprocessor programme - acquisition  LABVIEW programme optimal mode- integration of 1.Temperature maps in 3D 2.Second sound triangulation (MATLAB) 3.Optical inspection data 3/5/2012-5/5/ courtesy of Janic Chambrillion Kitty Liao CERN BE-RF-SRF

IV. Summary & Future work 3/5/2012-5/5/ Second soundOctopus thermometry 1.Appropriate source for simulating a quench event 2.Second sound studies to be continued for explaining physics and phenomenon in real quench test 3.Cavity quench test 1.Programmes to be done and test with 2 boards (in and outside helium) 2.Allen-bradley sensors fabrication 3.PCB fabrication 4.LabView program Kitty Liao CERN BE-RF-SRF

Acknowledgements Cryogenics team in SM18 & Cryolab Second sound – P. Zhang, Murakami, Tsukuba University Quench results discussion -J. Plouin, Saclay T-mapping – Iwashita, KEK Colleagues of the RF group, Wolfgang Weingarten 133/5/2012-5/5/2012 Kitty Liao CERN BE-RF-SRF

Q & A Thank you very much 143/5/2012-5/5/2012 Kitty Liao CERN BE-RF-SRF

Cavity Vertical Test and Diagnostics Back up slides Kitty Liao Kitty Liao CERN BE-RF-SRF

II. Second Sound Studies 3/5/2012-5/5/ Distance variation amplitude max at ~ 9 cm attenuated by 60% at 18 cm Tube measurement bending tube receives signal smaller amplitudes applicable for complicated structure with quench spots Kitty Liao CERN BE-RF-SRF

Second sound extra Helium  Lambda point 2.17K  superfluid He 2 fluid model -normal component + superfluid component Normal fluid Bose-Einstein condensate Entropy, viscocity With no entropy, no viscosity 17 Source: R. Donnelly. Physics today st sound: n, s in phase 2 nd sound: n, s out of phase Fluctuation in density, by changes of pressure Fluctuation in density, by changes of temperature 3/5/2012-5/5/2012 Kitty Liao CERN BE-RF-SRF

Second sound and first sound below the lambda point 18 Source: McGraw-Hill Concise Encyclopedia of Physics. © 2002 by The McGraw-Hill Companies, Inc. 1.First sound- pressure wave 2.Second sound- entropy (temperature) wave 3.Third sound- wave travels in very thin films of helium in which the thickness of the film varies. 4.Fourth sound- pressure wave travels in superfluid helium. When its confined in a porous material. 5.Fifth sound- temperature wave that propagates in helium confined in superleaks. (analogous to second sound) 3/5/2012-5/5/2012 Kitty Liao CERN BE-RF-SRF