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STFC Technology undulator manufacture and measurement James Rochford On behalf of the Helical collaboration.

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Presentation on theme: "STFC Technology undulator manufacture and measurement James Rochford On behalf of the Helical collaboration."— Presentation transcript:

1 STFC Technology undulator manufacture and measurement James Rochford On behalf of the Helical collaboration

2 2 Slide title Scope of presentation Current status Where we are at the moment Plans for the coming months Prototype design, manufacture, testing 4m Module design Magnet Testing and integration Assembly of 4m module First tests of the final prototype Introduction Undulator specification

3 3 Slide title Magnet manufacturing spec Following a pretty extensive R&D programme and modelling study the following specification was developed for the undulators: Undulator Period11.5 mm Field on Axis0.86 T Peak field homogeneity <1% Winding bore >6mm Undulator Length147 m Nominal current 215A Critical current ~270A Manufacturing tolerances winding concentricity20um winding tolerances 100um straightness100um NbTi wire Cu:Sc ratio 0.9 Winding blocck9 layers 7 wire ribbon This defines the shortest period undulator we could build with a realistic operating margin.

4 4 Slide title 4m Prototype 150m of undulator Module length Vacuum considerations <4m Collimation <4m Magnet R&D 2m section realistic Minimise number of modules 2 magnet sections per module Cryogenic system Magnets Bath cooled Re condensing system utilising a thermo siphon

5 5 Slide title Magnet manufacture

6 6 Slide title Magnet testing Field maps along the length of the undulator Current leads LHe undulator Stepper motor Screw mechanism Bx By Carbon fibre Tube thermal contraction~0 Consistency of logging systemSine wave pitch of – 11.492mm R(um) Particle Trajectories analysis – SPECTRA within expectations Quench testing both magnets deliver nominal field 7 th February 14 th February

7 7 Slide title 4m module assembly 4 meter module assembly Straightness 250um Axis alignment 1mm Condensing pot Current leads HTS leads

8 8 Slide title 4m module testing 1 Vac vessel closed Ln2 precooling Logging system connected First run of complete system early Sept.

9 9 Slide title Successful cool down and fill 4m module testing 2 Liquid-condensate Liquid-fill Fill start

10 10 Slide title 4m module testing 3 The 1st cool down was successful Filled system successfully Siphon operation seems good However had serious problem Large heat leak evident Rapid boil off of liquid Loss of vacuum in magnet bore (Beam tube) Liquid helium leak into magnet bore System not stable enough to put current into the magnets System had to be warmed

11 11 Slide title Current status Upon warming Found no leaks at 300K all <10e-10 into magnet bore Found very small leaks between He vessel –insulating vacuum <1e-8 – copper conflate seals Clear we had a cryogenic leak ! Had to remove magnets Complete strip down of the prototype

12 12 Slide title Current status Cryogenic leak testing Created a large open Liquid nitrogen bath To immerse magnets whilst leak testing Initially found a leak at the indium seal between magnets Fixed this by modifying the clamp arrangement Much more worryingly seem to have a leak through the magnet structure, on magnet 1 and magnet 2

13 13 Slide title Current status Suspected leak path The leak is strange Not at a normal interface Seems to be through the magnet torturous path through resin along copper bore to point where the magnets join Have some ideas on how to fix this There is a possibility that the bore tube has ruptured somewhere, this is really bad news! but the delay times in the leak response indicate the solder leak is much more probable Leak path Leak rate 2e-4 level on magnet 1 Leak rate 2e-7 level on magnet 2

14 14 Slide title Current status Further tests Tests are hard to perform Difficult to localise leak seen on magnet 2 may just be presence of leak on magnet 1 close by More tests planned to try to isolate leaks

15 15 Slide title Future plans Confirm leaks Confident we can fix the leak with sty cast Will check this by cooling with LN2 as for leak tests described earlier Repeat prototype build with an additional step Once the magnets are integrated in the vac vessel We will cool using the LN2 circuit and leak check prior to connecting the turret If ok we will proceed with the build Finish Rebuild of prototype Hopefully by Christmas Next cool down Power magnets to nominal current This will probably be in the new year Stability tests Warm up Bore heater tests More quench tests of magnet 2

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