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LHeC Final Focus System Jose L. Abelleira, PhD candidate CERN, EPFL Thanks to: H. Garcia, R. Tomas, F. Zimmermann 2012 CERN-ECFA-NuPECC Workshop on the.

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Presentation on theme: "LHeC Final Focus System Jose L. Abelleira, PhD candidate CERN, EPFL Thanks to: H. Garcia, R. Tomas, F. Zimmermann 2012 CERN-ECFA-NuPECC Workshop on the."— Presentation transcript:

1 LHeC Final Focus System Jose L. Abelleira, PhD candidate CERN, EPFL Thanks to: H. Garcia, R. Tomas, F. Zimmermann 2012 CERN-ECFA-NuPECC Workshop on the LHeC 14-15 June 2012 Chavannes-de-Bogis, Switzerland

2 Contents Round optics. e - FFS optics I: triplet Flat optics: – e - FFS optics II: Doublet, local chromatic correction – e - FFS optics III: Doublet, traditional chromatic correction J.L. Abelleira. LHeC Final Focus System. LheC workshop 2012 2 Introduced in the talk Interaction Region by R. Tomas (this workshop)

3 e - FFS optics I: triplet J.L. Abelleira. LHeC Final Focus System. LheC workshop 2012 3 No chromatic correction IP Bending magnets to compensate the dispersion created by the last dipole Chromatic aberration Beam size by order computed with MAPCLASS R. Tomas, CERN AB-Note-2006-017 (ABP) (2006).

4 Flat beam optics J.L. Abelleira. LHeC Final Focus System. LheC workshop 2012 4 4 Sextupoles to correct chromaticity in pairs 1 st pair: correction in X. β x >> β y 2 nd pair: correction in Y. β x << β y Chromatic correction Each of the sextupoles of the pair must be spaced Δμ x,y = π 2 arrangements Traditional, dedicated section Compact, Local chromatic correction P. Raimondi and A. Seryi, Phys. Rev. Lett. 86, 3779 (2001). Separation of β-functions Different β* to separate β-functions

5 e - FFS optics II: local chrom. corr. J.L. Abelleira. LHeC Final Focus System. LheC workshop 2012 5 Length : 150 m IP Dipole Quadrupole Sextupole Beam size by order SR power of 83 kW

6 e - FFS optics III: Traditional J.L. Abelleira. LHeC Final Focus System. LheC workshop 2012 6 Length : 267 m (too long) Modular construction: IP Dipole Quadrupole Sextupole CCY CCX Chromaticity compensated two dedicated sections. Separated optics with strictly defined functions that makes the system relatively simple to design. Chromaticity is not locally corrected. SR power of 39 kW

7 e - FFS optics III: Traditional J.L. Abelleira. LHeC Final Focus System. LheC workshop 2012 7 Geometric aberration Beam size by order

8 Flat beams comparative J.L. Abelleira. LHeC Final Focus System. LheC workshop 2012 8 Bandwidth e - FFS optics II e - FFS optics III: Traditional Much wider bandwidth for the local chromatic option  more stable for energy variations

9 Flat beams comparative J.L. Abelleira. LHeC Final Focus System. LheC workshop 2012 9 * Momentum spread σ δ = 0.3 × 10 −3 without synchrotron radiation evaluated by tracking with PLACET Synchrotron radiation effects due to emittance dilution in the horizontal plane. M. Sands, SLAC/AP-047 (1985).

10 Magnet comparison J.L. Abelleira. LHeC Final Focus System. LheC workshop 2012 10

11 A chromatic correction needs high dispersion regions in the sextupoles that introduce SR and emittance growth Restriction in length Restriction in L* Three different solutions have been studied and presented J.L. Abelleira. LHeC Final Focus System. LheC workshop 2012 11 Conclusions

12 J.L. Abelleira. LHeC Final Focus System. LheC workshop 2012 12 Three different e- FFS optics

13 References J.L. Abelleira, N. Bernard, S. Russenschuck, R. Tomas, F. Zimmermann; Proc. IPAC’11 San Sebastian, p. 2796. J.L. Abelleira, H. Garcia, R. Tomas, F. Zimmermann; IPAC’12 New Orleans J.L. Abelleira. LHeC Final Focus System. LheC workshop 2012 13

14 Thank you for your attention J.L. Abelleira. LHeC Final Focus System. LheC workshop 2012 14

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