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1 BROOKHAVEN SCIENCE ASSOCIATES
NSLS II: the Accelerator System Briefing
Conventional Facilities Advisory CommitteeMay 8 - 9, 2007
Satoshi OzakiDirector, Accelerator Systems Division, NSLS II Project
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Outline
• Overview of the accelerator system• Injection system design • Storage ring lattice
• Establishing the accelerator footprint (5/2/07 meeting
• Consideration for the future upgrade
• Beam Stability Taskforce activities (Sam Krinsky)
• Steps toward the “requirement” document for accelerator systems and implementation of the configuration control
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NSLS-II Concept Concept
NSLS-II Machine Concept New Electron Storage Ring Medium Energy (3 GeV) Large Circumference (791.5 m) Large Current (500 mA) Superconducting RF Top-Off Operation DBA30 Lattice Ultra-Low Emittance (<1 nm) Damping Wigglers (21 – 56 m) Large Dipole Bend Radius (25 m) Provision for IR Source Three-pole wiggler x-ray sources
Selected Technical Challenges Lattice Design: dynamic aperture, energy acceptance Source Stability: vibrations, thermal issues, feedback Impedance Budget: Small gap (5 mm) ID tapers, etc Insertion Device: CPMUs, EPUs, SCUs(?)
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Injection System Layout (Preliminary)
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Injection System Configuration
• Pre Injector: 200 MeV S-band Linac operating at 3 GHz– Linac tunnel + Klystron gallery
• Linac-to booster beam transfer line with two critical devices– Space in the linac tunnel and booster tunnel to install the transfer
line, and partition wall with a beam port between them
• Booster synchrotron: 3 GeV (upgrade to 3.6 GeV) • ~158 m in circumference• 10 n Coulomb per cycle• ~1 cycle per minute for top-off operation:• ~1 Hz (Interruptible if needed) for test and tuning operation:
– Separate booster tunnel and RF power & service building
• Booster to storage ring beam transfer line with two critical devices
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Storage Ring:
• ~791.5 m in circumference
• Double bend achromatic lattice with 15 long straights (~8m) and 15 short straights (~6m)
• Long straights for beam injection, RF, Damping Wigglers, and other insertion devices
• Short straights for narrow gap undulators for high brightness beams
• Area above the tunnel for power supplies, instrumentation electronics, and other service equipment
• Space for 3-Pole Wigglers just upstream of the second dipole (active length ≤0.4m).
Storage Ring Configuration
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CD-2 Lattice: Half-Superperiod
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CAD Picture of Storage Ring Configuration
Insertion device installed
Insertion device being transported
Beam shutter
Front end
Tunnel wall thickness varies depending on the distance to the center of the stored beam
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Storage Ring Functionalities
• 3 GeV, 500 mA 1%• Upgradeable to 3.6 GeV or 700 mA
• Estimated beam life-time: 2 – 3 hours • Top-off injection to achieve better than 1% beam current variation for
the heat load stability• Ultra-small emittance (x, y) :
• Bare Lattice: ~2 nmrad Horizontal & ~0.01 nmrad vertical• Baseline: ~1 nmrad horizontal & ~0.008 nmrad vertical• Fully built-out: ~1/2 nmrad horizontal, ~0.008 nmrad vertical
• High level of reliability and stability of operation
• Magnet Inventory:• 60 dipoles: 2.5 m long, 54 with 35 mm gap, 6 with 93 mm gap• 330 quadrupole magnets: • 390 sextupole magnets:• 210 or more corrector magnets
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Architectural Rendering of the NSLS-II Building
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Accelerator Footprint Development Status
• Injection Linac: • Tunnel enclosure for a 200 MeV S-band linac as was for the CDR, • klystron gallery can be either above or on a side of the linac tunnel
• Booster:• Circumference ~158.3 m with 4 straights (~7 m long each)• Almost ready to fix the straight length
• The entire injection system complex will be moved clockwise by one super-period, and the location and orientation of the booster and linac will be optimize.
• Design of beam transfer lines are to be finalized according to the placement of the linac and booster
• Storage ring lattice:• The circumference of the ring will be increased to 791.5 m in order to
rationalize the harmonic number of the ring• With due consideration of ID and vacuum equipment requirement, we will
maintain the short straight length at 6.6 m • The long straight will be about 8.5 m long, the detailed length depending on
the actual length of sectors• The super-long straights will be treated as a stretch goal, and when a need
is identified and satisfactory lattice is confirmed, the straights will be implemented within the baseline tunnel design.
• In order to maintain this implementation feasible, the inner wall of the tunnel will be modified at three super-periods to allow more space.
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Provisions for Future Upgrade
Super-long straight
For the in-tunnel lengthening of the straight, the inside wall of the SR tunnel must be recessed from a straight line over one super-period
Upgrade by ERL
A superconducting linac must be built outside the SR ring with a tunnel under the SR building for injection and return line.
Compared to this complexity, performance gain is rather the minimal.
Therefore, this is not a very serious possibility.
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• The beam stability required: 10% or less of the beam size (~3m)• Beam Stability Workshop: April 18-20, 2007: Sam Krinsky
• Settling and vibration (natural and self-inflicting) of the accelerator tunnel and experimental hall floor/beamlines
• Temperature stability• Mechanical engineering consideration• Magnet power supply and RF noise issue• Closed orbit correction with slow and fast feedback
• External Participants
• Extensive experience and lessons learned:
Beam Stability Requirement
M. Boege (SLS/PSI) J. Byrd (ALS/LBL)J. Chen (Taiwan) Y. Dabin (ESRF)R. Hettel (SSRL/SLAC) Chair J. Jacob (ESRF)J. Maser (APS/ANL) R. Mueller (BESSY)D. Shu (APS/ANL) J. Sidarous (APS/ANL)O. Singh (APS/ANL) C. Steier (ALS/LBL)