csr-drivenlongitudinal instability – comparison of theoretical
DESCRIPTION
CSR-DrivenLongitudinal Instability – Comparison of Theoretical and Experimental Results. Peter Kuske, Helmholtz-Zentrum Berlin, Germany. 3 rd Low Emittance Ring Workshop, 8 th -10 th July, 2013, Oxford, UK. Content of the Talk. - PowerPoint PPT PresentationTRANSCRIPT
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CSR-Driven Longitudinal Instability –
Comparison of
Theoretical
and Experimental Results
Peter Kuske, Helmholtz-Zentrum Berlin, Germany
3rd Low Emittance Ring Workshop, 8th-10th July, 2013, Oxford, UK
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
Content of the Talk
I. Introduction - Detection of CSR and Signals of Unstable Beams
II. Theoretical Predictions
III. Comparison of Predictions with Observations
IV. Summary
2
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
I.1 Observation of CSR @ BESSY II
K. H
olldack, et al., TH
PK
F013, E
PA
C‘04
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
I.2 Observation of CSR @ ANKA, MLS, ATF, …
Hot Electron Bolometer
A.-S. Müller, et al., TU5RFP027, PAC‘09
S. De Santis, et al., THPCH067, EPAC‘06
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
I.3 Observation of CSR @ Diamond
G. R
ehm, et al., T
UP
D32,D
IPA
C‘09
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
I.4 Observations @ DiamondR
. Bartolini, et al., T
HP
C068, IP
AC
‘11
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
I.5 Observations @ ANKA by V. Judin, et al.
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
I.6 Observations @ MLS
G. W
üstefeld, et al., WE
PA
015, IPA
C‘10
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I.7 Observations @ BESSY II
BESSY II, Fsyno=1 kHz, o~1.5 ps
Many modes visible in the Fourier transformed CSR
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK10
II.1 Shielded CSR-Impedance
R.L. Warnock, PAC'91, PAC1991_1824, http://www.JACoW.org
Broad band resonator with low Q:
ANKA: Fres ~ 127 GHz
BESSY II: Fres ~ 100 GHz
MLS: Fres ~ 44 GHz
2/32/124/ hcFres
d=2h, plate separation
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
II.2 Theoretical Result
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
II.3 Shielded CSR-Wake – BESSY II
3/40
3/1 )(2
cNr
Ss
ecsr
2/32/124/ hcFres
Scsr ~ 0.5 + 0.12·X (Bane, et al., IPAC’10)
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
II.3 Shielded CSR-Wake – BESSY II
3/40
3/1 )(2
cNr
Ss
ecsr
2/32/124/ hcFres
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
II.3 Shielded CSR-Wake – BESSY II
3/40
3/1 )(2
cNr
Ss
ecsr
2/32/124/ hcFres
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
II.4 Shielded CSR-Wake
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
II.5 Frequency of First Unstable Mode vs. norm. 0
BBR-Wake:
variation of Fres with constant o and
Shielded CSR-Wake:
Fres given by geometry and variation of o through α
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
II.6 Bunch Length, inst, at Instability Threshold
Broad-Band-Resonator Impedance Shielded CSR Impedance
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
II.7 Frequency of First Unstable Mode vs. norm. inst
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III.1 First Unstable Modes BESSY II
Slope agrees with resonance Fres~100 GHz
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK2020
III.2 CSR-Threshold Currents for BESSY II
Solid black line: K.L. Bane, et al., Phys. Rev. ST-AB 13, 104402 (2010)
In fair agreement with predictions – bunch lengthening explains shift
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III.3 CSR-Threshold Currents for the MLS
Solid black line: K.L. Bane, et al., Phys. Rev. ST-AB 13, 104402 (2010)
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
Observation at ANKA: Stability between 45 μA and 60 μA, below and above the beam is longitudinally unstable
III.4 CSR-Threshold Currents Observed at ANKA
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
Shielded CSR-Impedance at ANKA
Decscription of the code: P. Kuske, “CSR-DRIVEN LONGITUDINAL SINGLE BUNCH INSTABILITY THRESHOLDS”, WEOAB102, IPAC’13, Shanghai, China
RMS bunch length: σ = 1.953 psBending radius: ρ = 5.593 mHeight of dipole chamber: 2·h = 0.032 mEnergy: E = 1.3 GeVMomentum compaction factor: α = 2.033 10-4
Accelerating voltage: Vrf = 1.8 MVLongitudinal damping time: Τlong = 10.6 msSynchrotron frequency: Fsyn = 7.8 kHzDamping/excitation parameter: β = 1.93 10-3
CSR-impedance has first maximum at: Fres = c·(/24)1/2·ρ1/2·h-3/2 = 126.7 GHz
Shielding parameter (à la Bane, et al.): Χ = c·σ·ρ1/2·h-3/2 = 0.684 or 2Fres·σ = 1.555
III.5 Parameters for ANKA
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
Beam is longitudinally stable below 20 μA and between ~48 μA and ~59 μA
III.6 Result of the Simulation
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
Stability – thin lines, normalized energy spread = 1.0Oscillations – thick lines, normalized energy spread > 1.0
Bursts – more or less regular, saw tooth instability
III.7 Result of the Simulation:Normalized Energy Spread vs. Time
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
60 μA
III.8 Result of the Simulation:CSR-Signal
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
48 μA
III.8 Result of the Simulation:CSR-Signal
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
Very good agreement between the observations at ANKA and the results of the numerical solution of the VFP-equation:
• Correct predictions for the regions of longitudinal stability and instability
Correct predictions for the dominant mode of the longitudinal instability:
• Dipole mode at 20 μA, above ~36 μA quadrupole mode with a shift to lower frequencies as the current is increased
• Quadrupole mode above 60 μA shifting upwards with increasing bunch charge
IV.1 Summary of the Results for ANKA
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
IV.2 Status of CSR-Driven Longitudinal Instability
2/32/124/ hcFres
3/40
3/1 )(2
cNr
Ss
ecsr
Example for ANKA: 0=5.5 ps, Fsyn=8.5 kHz, Vrf=0.7 MV (E=1.3 GeV, α=6.24e-4):
2Fres·0 = 4.38 Finst ~4.5·Fsyn~ 38 kHz
Scsr ~ 0.8, Ithr ~ 0.32 mA
V. Judin, et al., TUPPP010, IPAC’12
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
IV.3 Observations @ ANKA by V. Judin, et al.
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3rd Low Emittance Ring Workshop, 7th-10th July, 2013, Oxford, UK
•Predictions using the shielded CSR-wake are in surprisingly good agreement with measurements at BESSY II, MLS, ANKA, and other storage rings.
•If the bunch length is known then we can estimate the shielding parameter or normalized resonance frequency and predict the threshold current.
•The observed resonance-like features show the importance of the vertical gap of the dipole vacuum chamber.
•Increasing the cavity voltage gradient will not necessarily lead to higher threshold currents for shorter bunches – consequences for BESSY-VSR.
•CSR-driven longitudinal single bunch instability thresholds are of no concern for low emittance rings – coupled multi bunch instabilities could be an issue because of the tube-like vacuum chambers.
•If bunch length and Finst are known then we can determine the dominant
frequency of the impedance.
•Longitudinal modes below the instability thresholds can be observed - with sensitive detectors.
•The support of Dennis Engel is acknowledged. 31
IV.4 Summary