Pei Shilun for the SHBS team Accelerator center, IHEP May 10, 2007
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Transcript of Pei Shilun for the SHBS team Accelerator center, IHEP May 10, 2007
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Progress of the sub-harmonic bunching system (i.e.
upgrading progress of BEPCII present bunching system)
Pei Shilun for the SHBS teamAccelerator center, IHEP
May 10, 2007
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Outline
• Beam dynamics simulation and mechanical layout
• Design and study of the two sub-harmonic bunching cavities
• Design and study of the two RF power source
• Construction schedule
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Beam dynamics simulation and mechanical layout
(1)
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Schematic layout of the bunching system
1.6ns1.6ns
10ps
~9nC(total)
SHB2 Buncher Standard accelerate sectionGun
571.2MHz 2856MHz 2856MHz
e-
Schematic layout of the upgraded pre-injector with 2 SHBs
(Design Scheme)
10nC
SHB1
142.8MHz
Schematic layout of the present pre-injector
(Present Scheme)
e-
1.6ns
PB Buncher Standard accelerate sectionGun
2856MHz 2856MHz 2856MHz
1.6ns 10ps350ps
~7nC(total)
10nC
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layout of the bunching system
Keep the location and arrangement
of devices
Keep the arrangement of
devices but move northward for
113.4cm
Remove PB 、 GUF6 and GUF7
Install SHB1 、 SHB2 and 11 new coils
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Arrangement of devices for the new sub-harmonic bunching
system
Solenoids
GunBPM&BCT
Vacuumvalve
Vacuumchamber
Profile
BPMSHB1SHB2 Bellow
Bellows
Solenoids SolenoidsSolenoids
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Beam pulse structure at the bunching system exit
• Starting with the beam parameters at the gun exit calculated with EGUN, a 150kV/10A/10nC/1.6ns(Bottom width)/0.95ns(FWHM) electron bunch is used as an input of PARMELA to simulate and optimize the beam performance of the primary electron beam at the present and the sub-harmonic bunching system exit.
enlarged
enlarged
Present bunching system
Sub-harmonic bunching system
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Emittance variation along the bunching system
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Bunching efficiency of the bunching system
(charge within 10ps at the A0 exit)
Present bunching system
Sub-harmonic bunching system
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Beam envelope variation along the bunching system
Present bunching system
Sub-harmonic bunching system
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Solenoid field strength variation along the bunching
system
Present bunching system
Sub-harmonic bunching system
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Physical tolerance of the new sub-harmonic bunching system
Instrument Tolera
nce
Gun beam timing
± 50 ps
Gun high voltage
± 0.4 %
SHB1 phase ± 1.5o
SHB1 power ±1.5%SHB2 phase ± 1.5o
SHB2 power ±1.5%Buncher
phase± 2.0o
A0 phase ± 2.0o
• According to the simulation results with PARMELA, the physical tolerance of the new sub-harmonic bunching system can be obtained. If the physical tolerance shown in the following table cann’t be satisfied, the reduction of the bunching efficiency will be larger than 10%.
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Design and study of the two sub-harmonic bunching cavities
(2)
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Main parameters of SHB1: • Resonant frequency: 142.8MHz• Tuning range: ~400kHz(length of tuner: 40mm 、 radius of tuner: 10mm)• Q0 value: ~8175• Shunt impedance: ~1.4MOhm• Esurface,max/Egap,max=2.53• When Pin=10kW, Egap,max=2.70MV/m, Esurface,max=6.85
MV/m, Vgap,max=118kV.
Main parameters and structure of SHB1
water channel
Structure of SHB1
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SHB1 assembly SHB1 cut view
Tuner cut view Long drift tube assembly
Mechanical design of the SHB1
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Monit
or
Coupler
Short drift tubeLong drift tube end-plate
Mechanical design of the SHB1
Bought from HITACHI High-Technologies
Corporation
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Main parameters and structure of SHB2
Main parameters of SHB2:• Resonant frequency: 571.2MHz• Tuning range: ~2MHz (length of tuner: 30mm 、 radius of tuner: 8mm)• Q0 value: ~13629• Shunt impedance: ~3.7MOhm• Esurface max/Egap,max=2.44• When Pin=4.5kW, Egap,max=3.68MV/m, Esurface,max=8.98M
V/m, Vgap,max=129kV.
Structure of SHB2
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Mechanical design of the SHB2 test cavity
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Cold test of the SHB2 test cavity
• Frequency: 571.2MHz (Simulation: 571.2MHz)• Unloaded Q value: >10605 (Simulation: 12370)• Tuning range: 1.60MHz (Simulation: 1.40MHz)• VSWR: <1.05 (Simulation: <1.05)The measurement and the simulation consistent
well!
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Design and study of the two RF power source
(3)
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Schematic diagram of the RF system for BEPCII Future Linac
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Specification of the six reference signal generator
• Input signal: 571.2MHz 、 -8dBm-4dBm• Output signal: f1=571.2MHz 、 f2=142.8MHz 、 f3=2856MH
z 、 f4=17.85MHz 、 f5=71.4MHz 、 f6=499.8MHz• Output power: f1, f2, f3 >13dBm, f4, f5, f6 >10dBm • Input phase noise: >130dBc/Hz (5kHz)• Output phase noise: f1, f2, f4, f5 >110dBc/Hz (5kHz) f3, f6 >105dBc/Hz (5kHz)• Phase shift: <=±2ps/℃• Non-harmonic restrain: >=50dBc• Harmonic restrain: >=25dBc• Output signal isolation: >=20dB• Stably operating temperature: 0~50 Degree
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SHB1 solid-state amplifier1) Specification: • Frequency 142.8MHz 5.0MHz• Pulse width 10 to 70s• Repetition 1 to 100Hz• RF input power (cw) 10mW• Phase noise - 110dBc/Hz (1kHz)• RF output power 20kW• Phase variation 1.5 (max. )˚• Phase drift during pulse <1 ˚• Pulse rise/fall time <1s• RF pulse flatness 2 % (max.)• RF power stability 1.5 %2) Operation requirement:• Monitor of the output power .• Monitor of the power supply and power amplifier modules.• VSWR protection when output mismatch occurs.3) Environment requirement:• Air conditioning, < 25℃
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SHB2 solid-state amplifier1) Specification: • Frequency 571.2MHz 5.0MHz• Pulse width 10 to 70s• Repetition 1 to 100Hz• RF input power (cw) 10mW• Phase noise - 110dBc/Hz (1kHz)• RF output power 10kW• Phase variation 1.5 (max. )˚• Phase drift during pulse <1 ˚• Pulse rise/fall time <1s• RF pulse flatness 2 % (max.)• RF power stability 1.5 %2) Operation requirement:• Monitor of the output power .• Monitor of the power supply and power amplifier modules.• VSWR protection when output mismatch occurs.3) Environment requirement:• Air conditioning, < 25℃
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571.2MHz/1.5kW solid state test module for SHB2
Parameters Measured
Frequency 571.2MHz
Pulse width 10 s
Repetition 400Hz
RF input power 10dBm
Rise time 70.8 ns
Fall time 98.0 ns
RF pulse flatness 0.48%
Output power 1888W
Phase drift during pulse
0.738°
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Requirements to the LLRF
• Phase and amplitude stability of the SHB cavities.
• Fast interlock of the SHB cavities and the power amplifiers.
• Frequency tuning of the SHB cavities.• Ethernet interface for remote control.• Fast data acquisition and history
recording.
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Construction schedule• 2006.12: Detailed engineering design• 2007.1~07.10: Fabrication of all SHB compo
nents • 2007.11~07.12: Acceptance test • 2008.1~08.5: High power test in laboratory• 2008.6~08.8: Installation and commissioni
ng• 2008.9: Operation in Linac
(4)
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Summary(1)• Established in the future development o
f BEPCII Linac, the optimized physical design of BEPCII future sub-harmonic bunching system and the optimized structure of the two SHBs are developed.
• Design, fabrication and cold test of the SHB2 test cavity has been performed, the test results is consistent with the simulation.
• Study of the two RF power source have been done. One test module of the solid state amplifier has been designed and tested with satisfied results.
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Thank the colleagues from KEKB-Linac and SLAC for their help in the past sever
al years.
Summary(2)• Recently, the upgrading of BEPCII present bunc
hing system to sub-harmonic bunching system has been approved by IHEP’s experts and directors. The detailed design scheme has been decided. The construction will start in this year, correspondingly, the commissioning will be started in summer of 2008 according to the construction plan.
The revolution is not success, everybody in the SHBS team should
continue to work hard.