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2002 EPICS Seminar. Welcome EPICS'02. Institute of High Energy Physics Chinese Academy of Sciences 20-22 August, 2002. Introduction to BEPCII EPICS Seminar 2002 ( August 20, 2002, IHEP ). From BEPC to BEPCII Basic Design Key Technologies Budget and schedule Summary.
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2002 EPICS Seminar Welcome EPICS'02 Institute of High Energy Physics Chinese Academy of Sciences 20-22 August, 2002
Introduction to BEPCIIEPICS Seminar 2002(August 20, 2002, IHEP) • From BEPC to BEPCII • Basic Design • Key Technologies • Budget and schedule • Summary
(1) From BEPC to BEPCII • Status of the BEPC • Why BEPCII • What is BEPCII
Main Parameters Beam Energy (E) 1.0 ~ 2.5 GeV Revolution frequency (fr) 1.247 MHz Lattice Type FODO + Low-b Insertions *x -function at IP (*x/ *y) 1.3/0.05 m Transverse Tune (x/y) 5.8/6.8 (Col. Mode) 8.72/4.75 (SR Mode) Natural Energy Spread (e) 2.64E 10-4 Momentum Com. Factor (p) 0.042 (Col. Mode) 0.016 (SR Mode) Hor. Natural Emittance (x0) 0.4@1.55 GeV, 0.076@2.2GeV(SR) mmmr RF Frequency (frf) 199.533 MHz Harmonic Number (h) 160 RF Voltage (Vrf) 0.6~1.6 MV Bunch Number (Nb) 1*1 (Col.), 60~80 (SR) Maximum Beam Current 50mA@1.55 GeV (Col.,) 130mA (SR) Luminosity 5 1030 cm-2 s-1@1.55 GeV, 11031 cm-2 s-1@1.89GeV
Statistics of 00-01 Operation Start-up Fault Injection 6% 4% 12% BSRF MD 26% 10% BES 42%
Daily J/y operation of BEPC Period Days Beam time (hrs.) J/y events Lmax(1030cm-2 s-1) t(hrs) 99-00 142 2323 24 M 4 8-10 00-01 110 1900 22 M 5 8-10
BSRF dedicated operation 70 days with three times for about 300 users every year Imax=140 mA, ex0=76 nm, t=20~30 hrs., Ninj=2
2.1 Why BEPCII • BEPC/BESI collected 9 106 J/yevents in about two years; • Upgraded BEPC/BESII obtained 5107 J/yevents in two years; • BEPC/BESI collected 4 106 y events; • BEPC /BESII operated for y from Nov. 23, 2001 to March 13, 2002; • With 1 106 a week, 1.4107 y was collected in 100 days; • Nice physics results are expected; • For our physics goal, 6 109 J/y2109 yper year are expected BEPCII/BESIII!
1.3 Luminosity Strategy of the BEPCII Multy-bunch kbmax~400,kb=1 93 Choose large ex & optimum param.: Ib=9.75mA, xy=0.04 Micro-b:by*=5cm 1.5 cm SC insertion quads Reduce impedance +SC RF sz=5cm <1.5cm (LBEPCII/ LBEPC)D.R.=(5.5/1.5) 93 9.8/35=96 LBEPC=1.010 31 cm-2s-1 LBEPCII =110 33 cm-2s-1
(2) The Basic Design • The double ring structure of BEPCII • Design Goals and Main Parameters • Lattice and Dynamic Aperture • Beam Collective Effects • Beam Lifetime & Average Luminosity
Mock-up of the double ring installation • There is no showstopper for the transportation, installation, mounting and dismount of the magnets. • The existing monuments for survey and alignment will be covered by the inner ring magnets. New monuments will be fixed on the wall of the tunnel. • The antechamber of the positron ring needs to be carefully designed to fit the crucial space between two rings; • The cable system, the cooling-watersystem, the pressure-air system and others need to be rearranged.
2.4 Single beam collective effects • Bunch length and impedance Vrf= 1.5MV, Z/n|eff0.2, Ith = 37mA Ib = 9.8mA, l ~ 1.3 cm • Beam-cavity interaction(with KEKB SC cavities) • Resistive wall x/y= 6.6/7.6,Nb = 99, Ib = 9.8mA, = 4.3ms; • Ion effects • Electron cloud instability: Antechamber with TiN coating for e+ ring • Bunch feedback:tL=5 ms, tT=2 ms • Single beam instabilities can be damped !
2.5 Beam-beam effects • Head-on beam-beam effect: similar to BEPC x=0.04 has been demonstrated • Parasitic beam-beam effect c=112 mrad • Horizontal crossing angle c (5.5-11)2 mrad(BEPCII), 2.32 mrad(CESR) 112 mrad(KEKB), 12.5 2 mrad(DAFNE) • Beam-beam simulation for BEPCII with BBC code has shown that the beam-beam parameters and crossing angle of 11 mrad are acceptable.
2.5 Beam Lifetime and Average Luminosity Taking t =1.35 hrs., tf= 0.4 hr. and L0=11033 cm -2s-1, the optimized collision time is calculated as 1.0 hrs. and the maximum average luminosity is calculated as Lmax~ 0.51033 cm-2s-1. The top-off injection will further improve the average luminosity.
(3) Key Technologies • Injector Upgrades • 500 MHz SC RF System • SC Micro-b Quads and IR • Magnet System • Power Supply System • Injection Kickers • Vacuum System • Instrumentation and Feedback • Control Upgrade
3.1 Injector upgrading • Basic requirement: • Higher intensity: positron injection rate 50 mA/min.; • Full energy injection with E=1.55 ~ 1.89 GeV; • To enhance the current and energy of the electron beam bombarding the target and to reduce the beam spot; • To design and produce a new positron source and to improve its focusing; • To increase the repetition rate from present 12.5 Hz to 50 Hz. • To consider multi-bunch injection (fRF/fLinac=7/40);
3.2 500 MHz SC RF System • Basic requirement • Sufficient RF voltage for short bunches. • Sufficient high RF power. • Suppressing the instabilities related to RF system. • Stable and reliable RF system
3.4 Magnets System New arc magnets
Septum Bending magnetISPB Magnetic length 0.6m Magnetic Field 0.4 T Theckness 10mm Aperture 11078mm2 Current 2100 A Current density 52.7 A/mm2
3.6 Vacuum System • The BEPCII poses two challenges to the vacuum system, one is vacuum pressure (Arcs: 810-9Torr,IR: 510-10Torr), other is the impedance. • Vacuum pressure Electron Ring Positron Ring
3.7 Instrumentation and Feedback Beam Position Monitor Bunch Current Monitor Beam Feedback System Synchrotron Light Monitor IP beam position control ……
3.8 Control System BEPC WS console Ethernet PC subsystems VAX 4500 Injection Beam diagnostic Linac CAMAC PS, Vacuum, RF BEPCII
(4) Budget and Schedule The budget of BEPCII project is estimated as 640 MRMB. It is scheduled to finish in 4 years.
(5) Summary • BEPC has been well operated with many exciting HEP and SR results for 13 years since it was put into operation in 1989. • BEPCII is proposed as micro-b plus multibunches with two rings and its design luminosity is order of magnitude higher than present BEPC in energy range of J/y, y and y. • Some key technologies need to be developed to achieve the goal of BEPC II. • The international collaboration will be promoted in order to accomplish this challenging and exciting project on schedule and budget.