beam-based optics measurements at the esr and at some ...petrenko/docs/petrenko_gsi_04_2011.pdf ·...
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Beam-based optics measurements at the ESRand at some other accelerators
Alexey Petrenko, BINP, Novosibirsk, Russia
Outline:
ESR: Linear model calibration for the ESR Turn-by-turn measurements Local bump measurements
VEPP-5 damping ring opticsOptical fiber-based beam loss monitorLongitudinal beam slicing
Model-Independent Analysis of BPM measurements (Tevatron, LHC)
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ESR orbit response measurements:
12 dipole correctors,12 BPMs
8 dipole correctors,12 BPMs
Betatron tune and revolution frequency responses:
20 quads,10 power supplies
Orbit length change: ΔL= θ·D(s
0)
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since
Equation for beam orbit in a storage ting with thin dipole corrector:
― Green's function.
Corrector
Corrector
Solution:
Orbit length change
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Model calibration using penalty (optimization) function
Measured Model Measurementaccuracy
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No initial error in the E01QS3D E02QS6D quadrupoles assumed:
5.8% error in the E01QS3D E02QS6D quadrupoles is taken into account:
This focusing error distribution is quite similar to 2% offset of beam energy
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BPM signals after coasting beam is kicked on the injection orbit
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Natural chromaticity of ESR
Simulation
Measured
Betatron tune as a function of ion beamenergy. Coasting beam energy varied withelectron cooler voltage. All the ESR sextupoleswere switched off.
ESR dipole magnet.1 ― additional field correction coils.2 ― multipole expansion is valid onlyinside the circle of this size.
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Local orbit bump in the ESR:
Symmetric orbit bumpin the different arc of the ESR:
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ESR dipole field profile reconstruction:
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Conclusions on the ESR measurements:1) The calibrated model proved to be good enough to make some predictions (local orbit bump, dispersion in corrector). However the causes of remaining focusing errors are still unclear, and it's not clear how different is the linear optics on injection orbit (accurate response measurements were taken only for the central orbit).
2) It would be interesting to measure dispersion function in all 12 dipole correctors (especially in the isochronous mode of the ESR). A similar measurement (also with kicked coasting beam instead of BTF) is possible in the SIS-18 — in case it is possible to vary corrector strength after RF is switched off. Dispersion + tune response data can be enough to calibrate the accelerator model, so no BPM data (i.e. orbit response matrix) with bunched beam will be required for model calibration.
3) Check the ESR dipole field profile (was it measured before?) in order to make sure it is really the cause of nonlinearity in the tune response to orbit change (and in the chromaticity). Alternative measurement with kicked coasting beam on injection orbit may be helpful. Finally it may be possible to correct the field profile with a beam based method (and see if it helps to correct the chromaticity).
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Electron beam obtainedin the damping ring:
E = 200 … 400 MeVN(e–) = 2·1010
σS = 8 mm (Ipeak
= 50 A)
VEPP-5 electron/positron source
Positron beam commissioningis scheduled for the end of 2011
300-MeV Linac
500-MeV Linac
DampingRing
e–
e+Positron production target
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Injected beam: Extracted beam:
0 1 cm
Beam loss during injection is the main issue. Accurate linac and ring optics matching is required.
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Optical fiber-based beam loss monitor
e+/e- (E>10 MeV)
PMT
Photomultiplier tube
Optical fiber
Secondary e+, e-, gamma-photons
e+/e- generate Cherenkovradiation flash in the fiber
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Injection angle measurement
Beam angle after septum dx/ds = −3 mrad.Therefore F3 strength had to be decreased.
Beam on the fluorescent screenfor different strengths of F3 quadrupole
F3 D3
Septum wall
0
1
2
3
4
s (cm)
Kicker plate
100
fluorescent screen
0
I(F3), A
x (cm)
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Model calibration using the penalty function
Measured Model Measurementaccuracy
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Beam orbit in sextupoles
K2 = 80
K2 = 400
Similar measurement at the ESR:νx as a function of horizontal correctionfor two different sextupole strengths:
BPMs
Beam orbit offset in sextupole
Sextupole misallignments arethe main focusing errorsin the VEPP-5 damping ring.
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Coherent beam oscillations in the VEPP-5 damping ring measured by BPM at low beam current (<1 mA)
ξ=-6,0
Measured
Theory
ξ=+2,8
Turn number Turn number
Small sunchrotron tune(low RF voltage)
Large sunchrotron tune(high RF voltage)
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Model-Independent Analysisof Beam Position Monitor Measurements
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Blind signal separation
If there are more microphones than independent signal sources it is possible to separate all the independent signals:
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are both unknownsit a ij
Mathematical formulation of the signal separation problem
It is necessary to find such a transformation W, that
Wxs =Asx =
Measurements
Separated signals
x1t =a11 s1t a12 s2t
x2t =a21 s1t a22 s2t
x3t =a31 s1t a32 s2t
⟨s1 s2⟩=⟨s1⟩ ⟨ s2⟩=0
x1
x2
x3
s1
s2
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X
Y
X'
Y'
X
Y
X'
Y'
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Turn-by-turn BPM signal after beam is kicked with a horizontal kicker
230 BPMs
Turn number
X (mkm)Tevatron collider
Fourier amplitude
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Model-Independent Analysis of BPM signals
Signal from each BPM is represented as a linear combination of a small number of mutually independent (orthogonal) components:
SingularValueDecomposition
B=UΣVT
...
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Spatial modes(amplitude of temporal mode vs BPM position)
Beam centroid trace in phase space: Lattice functions:
Temporal modes(mutually independent components)
Horizontal and vertical dispersion function
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Finding the source of some modes
"Betatron" phase of mode 2 (vibrational mode)Slow modes (after low-pass Fourier filter)
tan(Phase) = C1/C
2
At any pair of (horizontal) BPMs any spatial mode can be represented as a linear combination of two independent orbits:
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Elements of transport matrix between BPMs
Using any 4 linearly independent orbits (e. g. spatial modes of betatron oscillations)it is possible to calculate some of the transport matrix elements between BPMs:
J. Irwin and Y. T. Yan, “Beamline Model Verification Using Model Independent Analysis”, Proceedings of EPAC 2000, Vienna, Austria.
R12 calculated from turn-by-turn measurements (courtesy R. Miyamoto) at the LHC:
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Thank you for your attention!