A Coupled Cyclotron Solution for Carbon Ions …...SSC (PSI, Switzerland), 450 MeV/u 3 ~12 m...
Transcript of A Coupled Cyclotron Solution for Carbon Ions …...SSC (PSI, Switzerland), 450 MeV/u 3 ~12 m...
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V.L. Smirnov and S.B. Vorozhtsov Joint Institute for Nuclear Research, Dubna, Russia
Cyclotrons 2016, 11-16 September 2016, ETH Zürich
September 14, 2016
A COUPLED CYCLOTRON SOLUTION
FOR CARBON IONS ACCELERATION
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Background & Motivation
Carbon therapy facilities (Energy ~400 MeV/u)
Synchrotrons:
HIT (Heidelberg, Germany), Ef=430 MeV/u, Lmax(+injector)≈40m
CNAO (Pavia, Italy), Ef=400 MeV/u , Lmax (+injector) ≈24m
HIMM (IMP, China), Ef=400 MeV/u , Lmax (+injector) ≈27m
…
Cyclotrons:
C400 (IBA-JINR), Ef=400 MeV/u, Lmax≈7m
FFAG:
Pamela (Oxford, UK), Ef=400 MeV/u, Lmax (+injector) ≈25m
FFAG (NIRS, Japan), Ef=400 MeV/u , Lmax≈23m
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SSC (PSI, Switzerland), 450 MeV/u
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~12 m
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Acceleration complex (12C6+, 400 MeV/u.)
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Parameter of the booster Value
Ion type 12C6+
Number of sectors 6
RF frequency 73.56 MHz
RF mode 6
RF system 3×200 kV
Average magnetic field: injection/extraction 1.64 T/2.11 T
Maximal magnetic field: injection/extraction 4.22 T/6.40 T
Injection energy 70 MeV/u
Extraction energy 400 MeV/u
Injection radius 143 cm
Extraction radius 278 cm
Air gap between sectors 88-135 mm
Dimensions: diameter × height 8 m × 2.2 m
Total weight (sectors + coils) 310 t
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Cyclotron-injector (B0=2.4 T, Weight 90 t, Ef=70 MeV/u, Ions 12C6+, ) & Booster
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+2H
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Sector magnet parameters: yoke (1) length ×width×height: 3.1×2.0×2.2 m weight 50 t, coil (2) engineering current density 62 A/mm2, coil cross section 170×330 mm2, axial angle between upper and lower coils 8 degrees. The pole (3) and pole tip (4) have axial profile.
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Magnetic field value: Center: -1.1 Т; Hill: 7 Т; Valley: -1.3 Т; Yoke: -2.7 Т; Coil: 7.2 Т.
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Average magnetic field, sector field and flutter
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Deviation of the sector field from isochronous one (upper plot).
Beam RF phase (lower)
Nturns ≈ 1200 (3 gaps with 200 kV)
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Betatron frequencies (by tracing)
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Tune diagram
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Injection system:
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Magnetic dipoles of injection system
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B1: 1.0 T, 5 T/m
Coil: 9 A/mm2 B2: 1.4 T, 4 T/m
Coil: 30 A/mm2
B3: 1.5 T, 5 T/m
Coil: 50 A/mm2
B4: 0.8 T, 3 T/m
Coils: 20-63 A/mm2
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Beam envelopes during injection
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It’s needed to have very good beam from
injector (εx, εz≤ 2 π·mm·mrad, dE ≤0.1%)
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Beam emittances at the final radius (Eaverage = 405 MeV/u)
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Summary
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Design of the main cyclotron magnet and its injection system was attempted 3D programs for magnetic fields calculation and particle
tracing were used As an injector, a SC compact cyclotron can be used Such the machine is feasible, and there are examples of the
operating cyclotrons (Varian 250 MeV, the same magnetic rigidity)
Beam dynamics was studied Beam transmission from injection entrance to the final radius
was 85% (particles losses on the ESD septum)
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Notes & Plans
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Some critical points of this project: High coil current density of the main magnet
(62 A/mm2 with field value 7.2 T in the coil) Difficult assembly of the magnetic dipoles of the injection
system (high coil current density & few space for cryostat) Strict requirements for the beam quality from injector
(εx, εz≤ 2 π·mm·mrad, dE ≤0.2%) Next steps: Accelerating system design Extraction system development Coil forces analysis Cyclotron-injector design Study of the resonances crossing …
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Thank you for your attention…
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