sc overview 2013
DESCRIPTION
SC Overview 2013. White & Rouge T he Codes in Comparison The Noise Issue Convergence Test Some latest Results PSB PS SPS. SC Codes in Comparison I. PIC codes Selfconsistent Treatment 2D, 2.5D and full 3D , boundary Inherently slow because many macro-particles to be tracked - PowerPoint PPT PresentationTRANSCRIPT
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SC Overview FS 1
SC Overview 2013
• White & Rouge• The Codes in Comparison• The Noise Issue• Convergence Test• Some latest Results
• PSB• PS• SPS
18/12/2013
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18/12/2013 SC Overview FS 2
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18/12/2013 SC Overview FS 3
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SC Overview FS 4
SC Codes in Comparison I PIC codes• Selfconsistent Treatment• 2D, 2.5D and full 3D,
boundary• Inherently slow because
many macro-particles to be tracked
• Noisy, but “badness” effect still unclear
• Sensitive to skewed particle distributions avalanche ➔effects & with sudden loss
• Best at injection with various short-term beam adjustments at injection18/12/2013
Frozen Model• Frozen “adaptive” at best• 2D with some coupling via
dispersion• fast• No noise• No un-physical avalanche
effects• Good for long-term
simulation after the initial injection complications
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SC Overview FS 5
SC Codes in Comparison II PIC codes• PTC-ORBIT (SNS),
SYNERGIA (FERMILAB), IMPACT (LBL)
18/12/2013
Frozen Model• MICROMAP (GSI), MADX-SC
(CERN)
1) In both cases we have now to take into account advanced symplectic nonlinear dynamics codes that faithfully describe the linear lattice of our machines together with a good nonlinear model of the individual magnets. The codes uses well tested codes like MADX (CERN), PTC (KEK) and CHEF (FERMILAB). This is needed to evaluate the nonlinear resonances in conjunction with SC.
2) Detailed benchmarking in progress (example below)
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18/12/2013 SC Overview FS 6
H-DETUNING PTC-ORBITNOISE 1/3
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18/12/2013 SC Overview FS 7
Tune Evolution PTC-ORBITNOISE 2/3
Turns
Qx
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18/12/2013 SC Overview FS 8
Amplitude blow-up PTC-ORBITNOISE 3/3
Turns
X [0
.13s
]RED: zero AmplitudeGREEN: 0.1 sigma Amplitude
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18/12/2013 SC Overview FS 9
Convergence Test 1/3
Long-term Simulation
SYNERGIA
Preliminary
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18/12/2013 SC Overview FS 10
Convergence Test 2/3
Long-term Simulation
SYNERGIA
Preliminary
100’000 Turns
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18/12/2013 SC Overview FS 11
Convergence Test 3/3
SYNERGIA
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Status of the space charge studies and measurements in the CERN PSB Vincenzo Forte – Space charge workshop – CERN - 16/04/2012
Measurements: half integer resonance crossing… (static w. point above 2Qy=9)
300 350 400 450 500 550 600 6500
50
100
150
200
C time [ms]
Inte
nsity
[e10
]
@ C450 (switching off
QNO correctors)
Nice case for code benchmarking (simulations are on-going)
Transverse emittances constant
300 350 400 450 500 550 600 6504
4.2
4.4
4.5
4.6
4.8
5
Ctime [ms]
prog
ram
med
tune
s
HorizontalVertical
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Space Charge studies in the PSB
• Dynamic tune variation approaching the integer @ 160MeV• RMS emittances and losses evolution for:
– code benchmarking– prediction of machine performances when Space Charge necktie crosses the
integer (i.e large tune spread and/or low working point)
480 490 500 510 520 530 540 550 560 570 580 59050
100
150
200
Inte
nsity
[e10
]
480 490 500 510 520 530 540 550 560 570 580 5904
4.05
4.1
4.15
4.2
4.25
Ctime [ms]
Tune
s
HorizontalVertical
short bunch (without COD correction)short bunch (with COD correction)long bunch (with COD correction)long bunch (without COD correction)
MeasurementsSimulations2Qy=9
Qx +2Q
y =13 Q x-Q y
=0
3Qy=13
3Qx =13
2Qx +Q
y =13Qy=4
Qx=
4
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4th order Resonance
The 4th order resonance seems to be excited by space charge• Raymond WASEF, Space Charge Workshop, 16/04/13,
CERN8
• Maximum detuning due to space charge:
• Beam 1 : (-.22 ; -.4)• Beam 2 : (-.18 ; -.37)• Beam 3 : (-.08 ; -.24)• Beam 4 : (-.01 ; -.01)
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Resonance compensation2Q
x+Qy com
pensation3Q
y compensation
Horizontal tune scan
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Resonance compensation
Vertical tune scan
2Qx+Q
y compensation
3Qy com
pensation
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SPS space charge studies• Optimized working point for high brightness beam
• Incoherent tune spread from PTC-ORBIT simulation• No emittance blow-up in measurements – same emittance for batches with different storage times
Transverse emittance measurements
PTC-ORBIT simulation
~11sstorage time at injection energy
~7.5s ~4s
ΔQx≈0.10
ΔQy≈0.18
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SPS space charge studies• Optimized working point for high brightness beam
• Incoherent tune spread from PTC-ORBIT simulation• No emittance blow-up in measurements – same emittance for batches with different storage times
• Experimental study: working point scan• Emittance blow-up due to integer resonance for Qy<20.20
No blow-up
Vertical tune scan Emittance measurements
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SPS space charge studies• Optimized working point for high brightness beam
• Incoherent tune spread from PTC-ORBIT simulation• No emittance blow-up in measurements – same emittance for batches with different storage times
• Experimental study: working point scan• Emittance blow-up due to integer resonance for Qy<20.20
• Emittance blow-up due to integer resonance for Qx<20.12
No blow-up
Horizontal tune scan Emittance measurements
Consistent with tune shift in simulations