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TATIONpRÆSEN APRIL 8, 2014 AARHUS UNIVERSITET Commissioning of the A2T: DC and AC Magnet Systems Heine Dølrath Thomsen, ISA, Aarhus University 1.

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Presentation on theme: "TATIONpRÆSEN APRIL 8, 2014 AARHUS UNIVERSITET Commissioning of the A2T: DC and AC Magnet Systems Heine Dølrath Thomsen, ISA, Aarhus University 1."— Presentation transcript:

1 TATIONpRÆSEN APRIL 8, 2014 AARHUS UNIVERSITET Commissioning of the A2T: DC and AC Magnet Systems Heine Dølrath Thomsen, ISA, Aarhus University 1

2 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET UHB, 15 periods HEBT Layout (4 deg ACH) EWU with quadrupole doublet ACH A2T 128 m 10 RMS, X, Y, DUMP

3 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET Assumptions MAGNETS: ›All magnet polarities have been verified after installation in tunnel ›Quadrupoles have auxillary coils to generate a dipole corrector field (1D). ›Separate correctors in the A2T though… ›BPMs in immediate vicinity of almost every quad BEAM: ›Low-power beam mode available, 1 Hz x < 10 microsec ~ kW avg. power ›Beam-based alignment is applied to correct the beam centroid ›Beam parameters at the SCL exit are roughly known (beam stops & dump). 3

4 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET ACCELERATOR-TO-TARGET (A2T) 4

5 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET Raster Pattern 5 x,y [arb. units] One pattern cycle f y / f x = 5:4 ›f w ~ 40 kHz, T p-p = 12.5 us (w = x,y) Max(∆x) ~ 90 mm, max(∆y) = 16 mm, RMS(x-∆x) = 12.6 mm, RMS(y-∆y) = 6.3 mm

6 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET Beam Optics: LANL MTS Concept (B. Blind et al) 6 ACH Matching Q’s APCOTarget A2T RMs CO Q’s

7 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET ‘Raster25’ 7 ACH B y B y B x B x | B x B x B y B y AP A2T QP1-4 QP5,6 2.0 GeV: B x = ±1.96 mT.m, B y = ±2.28 mT.m, ±5 mT.m PBW BEW Centroid 10 x RMS beamlet RMs CO

8 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET A2T COMMISSIONING: DC OPTICS 8

9 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET How to Tune Your DC A2T: 1/3 9 ConditionMeasureScanAdjustBI Resolution R 12,AP-CO = 0 R 34,AP-CO = 0 Apparent CO location; deduced from BPMs near CO + dedicated BPM near target DC raster corrector pairQP5-6CO: ~0.5 mm M: ~2 mm CO AP

10 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET How to Tune Your DC A2T: 2/3 10 ConditionMeasureScanAdjustBI Resolution Beam size @ CO Wire scanner @ AP: + QP5-6 size magnification (0.22 & 1.1) ---QP1-40.1 mm Beam size @ Target Wire scanner @ PBWTBD CO AP

11 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET How to Tune Your DC A2T: 3/3 11 ConditionMeasureScanAdjustBI Resolution Max. deflection at target CO BPMs + Monolith BPMDC raster corrector pair---CO: ~0.5 mm M: ~2 mm 1 mm, (3 mm accuracy) Target imaging system CO AP

12 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET A2T COMMISSIONING: AC OPTICS 12

13 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET Modulator: DC supply (V 0w ) + H-bridge 13 doi: 10.1016/j.nima.2004.09.034 ›f w : clock (memory array) ›Slope: V 0w, (L/R) ›a w : slope / 4f w

14 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET Checking the Raster Pattern ›40 kHz: 0-a w in 6.25 us 1.Magnification is verified with DC correctors 2.Raster pattern is cyclic: ›Short beam pulses ›RM deflection: dedicated BPM (1 us interval) › ϕ x += δt, ϕ y += δt ›Shot-to-shot consistency 3.Increase pulse length and check intensity profiles 14

15 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET J max @ Target (BEW) 15

16 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET Commissioning the A2T DC Elements ›2 x 2 (XY corrector + BPMs) ›6 quadrupoles ›2 x CO quads: R 12 + R 34, (BPMs) ›4 x Matching quads: Beam sizes at CO (profile monitor, indirectly) and target (thermolum. coating) ›Check angular magnification AC Elements ›8 x RMs (2 families) ›DOFs: f w [2], ϕ xw [2], V 0w [8] (f x, f y, V 0x, V 0y ) ›Beam sweep waveforms can be sampled with short bunches (dedicated BPMs) ›Shot-to-shot reproducibility 16

17 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET EXTRA SLIDES 17

18 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET Commissioning An Achromat 18 30 MeV detuning in 5 steps Conditio n Measurable quantityScan?AdjustBI Resolution R 26,ACH = 0 ϕ y,ACH = 2π Δy = R 26,ACH x dp/pFinal SCL cavity, dp/p = 1.2% Ach. quads 0.5 mm (σ η ~50 mm) Δy, R 34 = sqrt(β 1 β 2 )sin( ϕ y ) Corrector kick ACH

19 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET A History of Beam Expander Systems… 200 mm 160 mm 140 mm ByBy x ByBy x f raster ~40 kHz ByBy x ›Suitable for CW or long-pulse machines ›Linear focusing and pattern is decoupled ›Non-linear DC field distorts phase space and focuses tails ›Complex tuning ›Overfocusing of halo ›Dodecapole comp.: overfocusing is neutralized ›SFM: cheap magnet? 19

20 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET HARDWARE 20

21 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET Magnets: EWU Quads ›Laminated: ›Scans & tuning less time consuming ›Cheapest solution, given the quantities (N > 20) ›Longer versions? Add laminates + change coils! ›Magnetic shield ›Technology study: ›DC-powered: ›Off the shelf power supplies ›Limited resistive losses (low J) ›Pulsed operation? ›Expensive power supplies (10x) with limited benefit 21

22 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET Raster System ›Raster magnets: ›Window frame ferrite yoke ›Cu windings (air-cooled) ›Ceramic pipe, Ø80 mm ›NI = 4 x 340 A (peak) ›± 5 mT.m peak field ›IGBT-based H-bridge 22 200 mm 160 mm 140 mm

23 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET Hardware 23 Detailed studies: Impact of non-ideal waveforms

24 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET HEBT: 4 Principal Sections ›Upgrade High Beta (UHB) ›Contingency towards unexpectedly poor SC linac performance: extra HB cavities can be installed! ›Transport section being mechanically identical to the MB+HB linac (apart from cryomodules, etc.) ›Adjustable collimators (would be excluded by upgrade) ›Achromat (ACH) ›4.5 m vertical shift of the beam from linac to target level ›Reduce dispersive effects ›Accelerator to Target (A2T) ›Reduce the beam peak intensity on the target (BEW) and proton beam window (PBW), cooling + radiation damage. ›Strong requirements for the beam on PBW + BEW (several zones defined for each element) ›Beam Dump Line (DMPL) ›Dispose pilot beam during tuning of the linac. ›Up to nominal beam energy x low duty cycle => 50 kW (7.5 kW avg. beam power, passively cooled) ›Insensitive to energy fluctuations (in line of sight with linac) 24

25 HEINE DØLRATH THOMSEN APRIL 8, 2014 AARHUS UNIVERSITET Contingency Region ~ HB Linac 25 C M R ACH

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