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FCC-ee booster: preliminary design study Dmitry Shwartz BINP 25.09.2015.

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Presentation on theme: "FCC-ee booster: preliminary design study Dmitry Shwartz BINP 25.09.2015."— Presentation transcript:

1 FCC-ee booster: preliminary design study Dmitry Shwartz BINP 25.09.2015

2 FCC-ee complex possible scheme Damping Ring with strong wigglers for rapid radiative polarization, 1-2 GeV e- Linac Linac,1-2 GeV Pre-booster (SPS?), 1-2 GeV >> 20 GeV e- >> e+ 20 >> 45 ÷ 175 GeV; top-up; polarization!

3 Geometry 3 arc-1 RF-section straight arc-2 Booster vs collider: same circumference, same tunnel, same emittance. Thus, the ring is cloned of Katsunobu Oide’s version collider “inner” quarter- ring, except the IR. Two-fold & mirror-symmetry.

4 Geometry (2) 4 10.6 m Inner arc & bypass was chosen by chance. Probable problems with MeV SR photons showering the detector (?)

5 Lattice functions 5 Half ring: Bypass:

6 Top-up injection 6 E [GeV]45.580120175 Lifetime [min]298732921 Inj. Cycle [sec] 361883525 Note: L  I + I  : 2% I >> 4% L Collider bhabha scattering lifetime: Beam current decay in the collider for the set of energies. << Injection both e+ & e-

7 Parameters 7 Energy [GeV]204580120175 Cycle time [s]12 Stackingno Circumference [m]99918.2 Bending radius [m]11653.8 FODO-cell length [m] 64.245 Betatron tunes per cell0.25 Betatron tunes334.45 / 333.2 Radiative emittance [nm]0.0240.120.380.851.81 Bending field [Gs]57129229343509 Energy Loss / turn [MeV]1.2131.131015727109 Transv. Damping time [s]110.9650.1720.0510.017 Transv. Damping time [turns]32974289551615350 Critical energy [MeV]0.00150.0170.0970.331.02

8 Intrabeam scattering 8 Energy: 20 GeV Total voltage: 141 MV “Nominal” bunch length: 0.63 mm Damping time: 11 s SPS lowest emittance: 0.3 nm @ 20 GeV 1% collider bunch intensity 100% collider bunch intensity

9 IBS (2) 9 Voltage following energy with invariant bucket width ~0.06 (9.6 GV with 7.1 GeV energy loss @ 175 GeV). Emittance (equilibrium) growth due to IBS. N bunch = 1.8×10 11. SPS lowest emittance: 0.3 nm @ 20 GeV

10 IBS (3) 10 Same conditions: voltage variation, N bunch = 1.8×10 11.

11 Dynamic Aperture estimations 11 Primitive tune chromaticity correction: two non-interleaved families SF, SD Off-energy (±1%) On-energy cm 25  Strong second-order tune chromaticity 1000 turns (damping off)

12 Siberian snakes 12 12 T (@175GeV), 76.3 m solenoids ± I matrix quads knob 3.53 mrad (41.2 m) dipole half-ring “arc” 0.7 m ~ 500-600 m Polarization preservation during acceleration demands two Siberian snakes placed with proper azimuthal angle proportion (Ivan Koop).

13 Plenty of work to be done! 13 Lowest energy? Injection chain? Cycling, filling, intensities… Arrangement in the tunnel Injection to collider scheme 50 Gs dipoles – practical possibility (cycling, shielding, stability, quality) Polarization aspects & insertions Tapering? Linear optics (depending on energy?) Nonlinear optics etc

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