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Structures for the CLIC Drive Beam Accelerator. Rolf Wegner. Outline. motivation simulations of basic cells design of TWS optimisations, discussion summary and next steps. motivation. R BP = 51 mm Ø BP = 102 mm. Erk Jensen. R 6. 18. R a. R b. R 6. L a. L b. R 9. 60. gap a.
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Structures for the CLIC Drive Beam Accelerator Rolf Wegner CLIC DBA Rolf Wegner
Outline • motivation • simulations of basic cells • design of TWS • optimisations, discussion • summary and next steps CLIC DBA Rolf Wegner
motivation RBP= 51 mm ØBP= 102 mm Erk Jensen CLIC DBA Rolf Wegner
R 6 18 Ra Rb R 6 La Lb R 9 60 gapa gapb R 9 RBP 11 99.979 110 simulations of basic cells CLIC DBA Rolf Wegner
simulations of basic cells CLIC DBA Rolf Wegner
simulations of basic cells CLIC DBA Rolf Wegner
simulations of basic cells tuning Ra => f0=1GHz variations: gap <=> vgr/c RBP post processing: fitting CLIC DBA Rolf Wegner
gapn Ib Ib RBP Pout η= Pb/Pin tfill mode spectrum Pin design of TWS Ncells E0T Vacc CLIC DBA Rolf Wegner
design of TWS example: Pin= 10 MW Ib= 4.21 A Ncells= 10 RBP= 39 mm vgr/c (gap) const η= 97.7% tfilling= 239.9 ns vgr/c lin. distribution η= 98.0% tfilling= 252.7 ns CLIC DBA Rolf Wegner
design of TWS example: Pin= 10 MW Ib= 4.21 A Ncells= 10 RBP= 39 mm vgr/c const η= 97.7% tfilling= 239.9 ns vgr/c lin. distribution η= 98.0% tfilling= 252.7 ns CLIC DBA Rolf Wegner
design of TWS example: Pin= 10 MW Ib= 4.21 A Ncells= 10 RBP= 39 mm vgr/c const η= 97.7% tfilling= 239.9 ns vgr/c lin. distribution η= 98.0% tfilling= 252.7 ns CLIC DBA Rolf Wegner
design of TWS example: Pin= 10 MW Ib= 4.21 A Ncells= 10 RBP= 39 mm vgr/c const η= 97.7% tfilling= 239.9 ns vgr/c lin. distribution η= 98.0% tfilling= 252.7 ns CLIC DBA Rolf Wegner
gap1 gapn (vgr/c)1 (vgr/c)n optimisations CLIC DBA Rolf Wegner
optimisations Pin= 10 MW Ib= 4.21 A RBP= 39 mm Ncells= 10 vgr/c lin. distribution vgr/c= [2.2% to 0.86%] vgr/c= [1.7% to 0.86%] vgr/c= [1.7% to 1.28%] CLIC DBA Rolf Wegner
optimisations Pin= 10 MW Ib= 4.21 A RBP= 39 mm Ncells= 4 .. 16 vgr/c lin. distribution optimised for efficiency CLIC DBA Rolf Wegner
optimisations - efficiency Pin= 10 MW Ib= 4.21 A RBP= 29 .. 45 mm Ncells= 4 .. 16 vgr/c lin. distribution optimised for efficiency • RF to beam efficiency • 97-98% • no damping • variety of structures • Ncells ~ 6 .. 15 • Lstructure ~ 0.6 .. 1.5 m • RBP ~ 29 .. 45 mm CLIC DBA Rolf Wegner
optimisations - efficiency Pin= 15 MW Ib= 4.21 A RBP= 35 .. 47 mm Ncells= 12 .. 25 vgr/c lin. distribution optimised for efficiency • RF to beam efficiency • 97-98% • no damping • variety of structures • Ncells ~ 11 .. 25 • Lstructure ~ 1.1 .. 2.5 m • RBP ~ 35 .. 51 mm CLIC DBA Rolf Wegner
optimisations – filling time Pin= 10 MW Ib= 4.21 A RBP= 39 mm Ncells= 4 .. 16 vgr/c const filling time <=> efficiency CLIC DBA Rolf Wegner
124 ns D ≈ 1/4 damping factor D 368 ns D ≈ 1/4 245 ± 27 ns D ≈ 1/10 tfill [ns] 245 ns D ≈ 1/18 combined optimisations • structure tasks: • acceleration => ηRF • phase noise damping=> D, tfill combination for optimisation C(ηRF,tfill)= f1(ηRF) + f2(tfill) f1(x)= 1- x f2(x)= α ((tfill-t0)/Δt)2 t0= 245 nsΔt= 27 nsα= 2% ? CLIC DBA Rolf Wegner
combined optimisations CLIC DBA Rolf Wegner
combined optimisations CLIC DBA Rolf Wegner
combined optimisations CLIC DBA Rolf Wegner
combined optimisations CLIC DBA Rolf Wegner
combined optimisations CLIC DBA Rolf Wegner
combined optimisations CLIC DBA Rolf Wegner
summary • variation of RBP => set of structures withηRF= 97 .. 98% (undamped)tfill = 245 ± 10 ns CLIC DBA Rolf Wegner
next steps CLIC DBA Rolf Wegner
next steps • mode bands • wake fields • damping CLIC DBA Rolf Wegner
Erk for all explanations and support thank you • for your attention CLIC DBA Rolf Wegner
additional slides CLIC DBA Rolf Wegner
additional slides CLIC DBA Rolf Wegner
additional slides CLIC DBA Rolf Wegner
additional slides CLIC DBA Rolf Wegner
additional slides CLIC DBA Rolf Wegner
additional slides CLIC DBA Rolf Wegner
additional slides CLIC DBA Rolf Wegner
