presented by lance cooley srf materials group leader, fermilab on behalf of the program committee
DESCRIPTION
Summary of the SRF Materials Workshop held 29-31 October at Michigan State Univ. hosted by MSU, NSCL, and Fermilab http://meetings.nscl.msu.edu/srfmatsci/. Presented by Lance Cooley SRF Materials Group Leader, Fermilab On behalf of the Program Committee. Overview. - PowerPoint PPT PresentationTRANSCRIPT
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Cooley – Main Linac - 2008 ILCTA 1
Summary of the
SRF Materials Workshop
held 29-31 October at Michigan State Univ.
hosted by MSU, NSCL, and Fermilabhttp://meetings.nscl.msu.edu/srfmats
ci/
Presented by Lance Cooley
SRF Materials Group Leader, Fermilab
On behalf of the Program Committee
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Cooley – Main Linac - 2008 ILCTA 2
Overview
• Fourth in a series of largely domestic workshops in the spirit of the Gordon Conferences
• General themes: end-use pull, industry achievements, materials science, processing innovations, fundamentals and tutorials
• Attendees are 40% Academic, 40% Lab, 20% Industry / Small Business
• Charge: Build connections between fundamental materials science and SRF technology to understand limits, validate processes, and seek breakthroughs inperformance.
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Cooley – Main Linac - 2008 ILCTA 3
Program
1. Materials R&D Drivers – updates from ILC, TTC, and other recent cavity tests
2. Removing or Avoiding Extrinsic Performance Limits• Focus on possible origins of weld / etch pits: do they originate
from sheet forming? Welding? Electropolishing?
3. Understanding and Achieving Intrinsic Limits• Overviews of atomic layer deposition and flux-line heating
4. Beyond Niobium
5. Processing Science and Innovations
6. Seamless Forming• Tutorial on seamless forming
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Cooley – Main Linac - 2008 ILCTA 4
Program
1. Materials R&D Drivers – updates from ILC, TTC, and other recent cavity tests
2. Removing or Avoiding Extrinsic Performance Limits• Focus on possible origins of weld / etch pits: do they originate
from sheet forming? Welding? Electropolishing?
3. Understanding and Achieving Intrinsic Limits• Overviews of atomic layer deposition and flux-line heating
4. Beyond Niobium
5. Processing Science and Innovations
6. Seamless Forming• Tutorial on seamless forming
![Page 5: Presented by Lance Cooley SRF Materials Group Leader, Fermilab On behalf of the Program Committee](https://reader030.vdocuments.us/reader030/viewer/2022032605/56812c73550346895d910f59/html5/thumbnails/5.jpg)
Cooley – Main Linac - 2008 ILCTA 5
Below: Cross-section of defect cut, polished, and imaged by orientation microscopy at Florida State
1 grain
FNAL 3D microscopy
Weld pits have been made in the laboratory
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Cooley – Main Linac - 2008 ILCTA 6
Welding
• Bob Salo – Sciaky• A moving electron gun
may be preferred to a moving work piece
• A 50 µm “defect” is not recognized as a defect in post-weld QA. “Weld porosity” is typically quoted in the 0.2 mm range and higher.
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Cooley – Main Linac - 2008 ILCTA 7Prof. Tom Bieler
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Cooley – Main Linac - 2008 ILCTA 8Tom Bieler
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Cooley – Main Linac - 2008 ILCTA 9C. Reese
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Cooley – Main Linac - 2008 ILCTA 10C. Reese
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Cooley – Main Linac - 2008 ILCTA 11
Program
1. Materials R&D Drivers – updates from ILC, TTC, and other recent cavity tests
2. Removing or Avoiding Extrinsic Performance Limits• Focus on possible origins of weld / etch pits: do they originate
from sheet forming? Welding? Electropolishing?
3. Understanding and Achieving Intrinsic Limits• Overviews of atomic layer deposition and flux-line heating
4. Beyond Niobium
5. Processing Science and Innovations
6. Seamless Forming• Tutorial on seamless forming
![Page 12: Presented by Lance Cooley SRF Materials Group Leader, Fermilab On behalf of the Program Committee](https://reader030.vdocuments.us/reader030/viewer/2022032605/56812c73550346895d910f59/html5/thumbnails/12.jpg)
Cooley – Main Linac - 2008 ILCTA 12Ciovatti and Gurevich
Flux “annealing” redistributes hot spotsMore effective in large-grain cavities due to lower pinning
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Cooley – Main Linac - 2008 ILCTA 13
Atomic Layer Deposition appears to work
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Cooley – Main Linac - 2008 ILCTA 14
Permanent cavity coatings?
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Cooley – Main Linac - 2008 ILCTA 15
Explanation of the baking effect?
J. Zasadzinski, T Proslier, M PellinOxygen defects in Nb2O5 are magnetic, break Cooper pairs when close. But they can be annealed away.
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Cooley – Main Linac - 2008 ILCTA 16
Evaluation of flux penetration into a grain boundary
BCP caused a groove to form in the isolated grain boundary, which caused it to admit magnetic flux
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Cooley – Main Linac - 2008 ILCTA 17
A better way to assess roughness
Power spectral density incorporates roughness data from nanometer to millimeter scales
Why is scaling observed over 4 decades?
Data sets taken overdifferent sampling areas
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Cooley – Main Linac - 2008 ILCTA 18
Program
1. Materials R&D Drivers – updates from ILC, TTC, and other recent cavity tests
2. Removing or Avoiding Extrinsic Performance Limits• Focus on possible origins of weld / etch pits: do they originate
from sheet forming? Welding? Electropolishing?
3. Understanding and Achieving Intrinsic Limits• Overviews of atomic layer deposition and flux-line heating
4. Beyond Niobium
5. Processing Science and Innovations
6. Seamless Forming• Tutorial on seamless forming
![Page 19: Presented by Lance Cooley SRF Materials Group Leader, Fermilab On behalf of the Program Committee](https://reader030.vdocuments.us/reader030/viewer/2022032605/56812c73550346895d910f59/html5/thumbnails/19.jpg)
Cooley – Main Linac - 2008 ILCTA 19
Seamless cavity forming – avoid welds
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Cooley – Main Linac - 2008 ILCTA 20
Niobium tubes
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Cooley – Main Linac - 2008 ILCTA 21
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Cooley – Main Linac - 2008 ILCTA 22Hartwig – TAMU, Crooks – Black Labs
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Cooley – Main Linac - 2008 ILCTA 23
Summary
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Cooley – Main Linac - 2008 ILCTA 24
C. Reese
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Cooley – Main Linac - 2008 ILCTA 25
C. Reese