Electron cloud measurements

1. Electron cloud measurements G. Arduini SL/OP Measurements performed in collaboration with B. Henrist, J.M. Jimenez, K. Weiss (LHC/VAC), F. Zimmermann (SL/AP), G. Ferioli (SL/BI), W. Hofle (SL/HRF), P. Collier (SL/OP) and others…

2. FT beam • 2.9 X 1013 p @ 400 GeV (~7 x 109 p/bunch) • 4200 bunches (almost uniformly distributed in the SPS) - 5 ns spacing G. Arduini – Electron cloud measurements

3. AEW peak detected signal (µ1/tbunch) Beam size Why during the ramp? tbunch=2.5 ns RF OFF G. Arduini – Electron cloud measurements

4. Electron cloud signal inversely proportional to ‘bunch charge density’µ(tbunch sHsV)-1 Why during the ramp? G. Arduini – Electron cloud measurements

5. Threshold for FT beam (08/08/2001) - arcs I~2x1013 p/cycle G. Arduini – Electron cloud measurements

6. Thresholds (in the arcs) • FT beam:~ 5 x 109 p/bunch (16/08) • LHC-50 ns:~ 6 x 1010 p/bunch (10/09) G. Arduini – Electron cloud measurements

7. 0.244 T 0.009 T Energy spectrum (FT) G. Arduini – Electron cloud measurements

8. 0.009 T 0.244 T Energy spectrum (FT) G. Arduini – Electron cloud measurements

9. 3 x 1010 p/bunch 5 x 1010 p/bunch Energy spectrum (LHC)–28/08 0.011 T 1500 ms Beam dump 0.244 T 500 ms Blow-up observed G. Arduini – Electron cloud measurements

10. 3 x 1010 p/bunch 5 x 1010 p/bunch Energy spectrum (LHC)-28/08 0.011 T 1500 ms Beam dump 0.244 T 500 ms Blow-up observed G. Arduini – Electron cloud measurements

11. 3 x 1010 p/bunch 5 x 1010 p/bunch Energy spectrum (LHC)-03/09 0.011 T 2250 ms 0.244 T 500 ms G. Arduini – Electron cloud measurements

12. 3 x 1010 p/bunch 5 x 1010 p/bunch Energy spectrum (LHC)-03/09 0.011 T 2250 ms 0.244 T 500 ms G. Arduini – Electron cloud measurements

13. 8 x 1010 p/bunch 9.7 x 1010 p/bunch Spectrum (LHC-50ns)-11/09 0.009 T 650 ms 0.244 T 500 ms G. Arduini – Electron cloud measurements

14. 8 x 1010 p/bunch 9.7 x 1010 p/bunch Spectrum (LHC-50ns)-11/09 0.009 T 650 ms 0.244 T 500 ms G. Arduini – Electron cloud measurements

15. Energy spectrum • Electron energy up to 110 – 120 eV for FT – up to 150 eV (?) for LHC (5 x 1010 p/bunch) • Lower energy for larger spacing for LHC beam (real?). Effect of integration? • Reduction of e-energy with blow-up • More signal at low field • Instrumental or real? G. Arduini – Electron cloud measurements

16. Instrumental effect ? • Cyclotron radius vs. Transverse energy/B field • Hole radius 2 mm • Wall thickness: 1.5 mm • Beam r.m.s. H size ~ a few mm G. Arduini – Electron cloud measurements

17. 0.244 T 0.044 T Scrubbing? (LHC-50ns-13/9) G. Arduini – Electron cloud measurements

18. 0.022 T 0.009 T Scrubbing? (LHC-50ns-13/9) G. Arduini – Electron cloud measurements

19. Scrubbing? (FT-13/8) • 0.244 T G. Arduini – Electron cloud measurements

20. Magnetic field dependence Courtesy of J.M. Jimenez G. Arduini – Electron cloud measurements

21. Magnetic field dependence Ibunch [1010 p/bunch] G. Arduini – Electron cloud measurements

22. Electron cloud at 0 field? • LHC beam – Ibunch~5 x 1010 p Power converter oscillating at low current G. Arduini – Electron cloud measurements

23. To be done (a proposal) • Thresholds • Turn-by-turn measurement • LHC beam: • Dependence on bunch length and transverse size (only qualitatively assessed) • Measurement of electro cloud evolution along the batch (1 – 2 batches with different spacing) • Go higher in intensity under controlled conditions • FT beam: • Local scrubbing (Intensity vs. bump amplitude and magnetic field) G. Arduini – Electron cloud measurements