Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M....
-
Upload
denis-greene -
Category
Documents
-
view
221 -
download
1
Transcript of Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M....
![Page 1: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/1.jpg)
Ghislain Roy
presenting work of
C. Carli, A. Garonna, D. AblerD. Kuchler, V. Toivanen, S. Myers, M. Dosanjh,
and many others
OPENMED - BioLEIR
![Page 2: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/2.jpg)
The New CERN Initiatives
1. Medical Accelerator DesignCoordinate an international collaboration to design a new compact, cost-effective accelerator facility, using the most advanced technologies
2. Biomedical Facility Creation of a facility at CERN that provides particle beams of different types and energies to external users for radiobiology and detector development
Iterative experimental verification of simulation results
3. Detectors for beam control and medical imaging
4. Diagnostics and Dosimetry for control of radiation
5. Radio-Isotopes (imaging and possibly treatment)
6. Large Scale Computing (simulations, treatment planning telemedicine etc)
7. Applications other than cancer therapy
Will
be
carr
ied o
ut in a
glo
bal
colla
borat
ion
![Page 3: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/3.jpg)
OPENMED
A Biomedical facility at CERN,
to provide particle beams of different types and energies to external users for radiobiology and detector development,
and to allow iterative experimental verification of simulation results.
![Page 4: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/4.jpg)
Introduction - MotivationNeed for radiobiological research with ion beams:
Protons and Carbon ions in clinical use Improved dose distribution, but limited understanding of all effects Other ions than p and C could be better suited (for certain cases)
Incoherent sets of data (radiobiological and clinical) observed under different conditions
New dosimetry and imaging modalities to be developed for full potential of ion beam therapy
Radiobiology: cell survival for different ions/LET/doses, bystander effects, RBE … Detector Development: in-beam prompt gamma/PET imaging, radiography, … Physics: fragmentation, …
Lack of Beam-Time for ions with an energy of more than 50 MeV/n: Nuclear physics laboratories (e.g. GANIL, GSI, INFN LNS, ITEP, JINR …)
Limited beam time available Ion Beam Therapy Centers (HIT, CNAO, MedAustron)
Limited range of ions Priority given to clinical use (treatments, dosimetry, quality assurance …)
![Page 5: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/5.jpg)
CERN accelerators
![Page 6: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/6.jpg)
LEIRPart of the SPS and LHC injector chain,
Gets heavy ion beams (Pb54+) from Linac3,
Accumulates and accelerates heavy ions,
Delivers heavy ions to the Proton Synchrotron.
Heavy Ion program at LHC and SPS is very important at CERN, but is not active all the time; only a few weeks per year, not counting future proposals
but OPENMED could use the rest of the time!
No other machine required … minimum impact on other CERN programs
Energy reach of LEIR appropriate for radiobiology experiments
Fully stripped 12C or 16O up to 240 MeV/n with present main power supply
And up to 430 MeV/n (magnet limit) with a new main power supply
Limitations from radiation protection ? (higher energy with higher Z/A for light ions)
Success of initial brainstorming meeting organised by M.Dosanjh demonstrates interest and usefulness of facility
![Page 7: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/7.jpg)
LEIR and Linacs
Lin
ac 3
Lin
ac 2
Linac 4 LEIR
South Hall
![Page 8: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/8.jpg)
LEIR
Circumference ~78 m=> energy reach suitable for studies of interest for hadrontherapy
Transfer tunnelProposed new extraction
and extraction line
![Page 9: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/9.jpg)
Introduction – Present LEIRMachine Layout
E-Cooling
Ejection
D≠10m
D≠0
D=0
Ejectionkicker
Quadrupole doublet
dipole
RF
D=0
Inje
ctio
n
Quadrupole triplet
LEIR layout – ~two fold symmetry -> Opposite sections have identical properties
Quadrupole triplets in cooling section-> lattice o.k. for cooling & injection
Main hardware installed : Section 10 :
Injection (D ~10 m !) Section 20:
Electron cooling (D ~0 m) Section 30 :
Ejection kicker Section 40 (D ~ 0 m) :
RF (small “Finemet” cavities, allows to install RF in extraction section)
Extraction septum (small dispersion -> small beamsize)
Beam diagnostics, damper, bumper, … installed wherever possible
![Page 10: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/10.jpg)
OPENMED modificationsTransfer lines - from Linac3
- towards the PS
Injectionline
Ejection linefor PS transfer
New ejectionchannel
LEIR shielding
wall
New transfer lineto experiment
PS shielding wall
Source (H2+ -- 8+O),
Linac front end, Linac, Transfer line,
Slow Extraction,Beamlines, Experimental area, Dump, Shielding,Ancillaries…
![Page 11: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/11.jpg)
Linac3
![Page 12: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/12.jpg)
Ion source Need separate source for light ions
and heavy ions Choice of source independent of
injector option ECR ion source would probably
deliver the highest particle currents, with lots of operational experience in different existing facilities, and being commercially available.
EBIS could be interesting if fast changes of particle types are requested.
Supernanogan by Pantechnik
![Page 13: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/13.jpg)
Light ion front end
To avoid interference with the heavy ion physics program a new light ion front end is also needed
Four options have been studied1. Linac3 extension
2. High Energy RFQ
3. New Linac
4. Cyclotron
With limited resources we could follow up with only one of these options
![Page 14: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/14.jpg)
Linac3 extension
Advantages Disadvantages
• Most advanced study• Reuse of Linac3 hardware• No new location required• Cheapest option• Least time to realize
• Linac3 modification required (switchyard)
• Existing IH-DTL limitations• Linac3 hall space limitations• Linac3 radiation safety revision• Installation limited by Linac3 operation• No light and heavy ions in parallel
Starting from existing hardware …
Species C N O Ne
Intensity 1.4 109 0.4 109 1.1 109 0.25 109
![Page 15: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/15.jpg)
High energy RFQ
Advantages Disadvantages
• No limitations from existing hardware
• Location not tied to Linac3• Light and heavy ions in parallel• Simplified design with only one
accelerating structure
• Long and expensive RFQ• Impractical accelerator for high energies• All new hardware required• New location required
As a new RFQ is needed anyway …
![Page 16: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/16.jpg)
New linear accelerator (Linac5)
Advantages Disadvantages
• No limitations from existing hardware• Location not tied to Linac3• Light and heavy ions in parallel• Higher final energy possible• Proven concept (existing facilities)• Suitable designs available
• All new hardware required• New location required
Extend the anyway needed RFQ “only” by some cavities …
![Page 17: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/17.jpg)
Cyclotron
Advantages Disadvantages
• No limitations from existing hardware
• Location not tied to Linac3• Light and heavy ions in parallel• Higher final energy possible• Compact design• Increases cyclotron experience
at CERN
• All new hardware required• New location required• Less ion species flexibility• Low beam intensities• Capabilities of commercial devices need to
be verified for all required ions• Cyclotron related technology currently not
common at CERN
Let’s try something completely different …
![Page 18: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/18.jpg)
Front end choice
Decision: new linac option Start technical design of a “Linac5”
and related beam dynamics studies Integration with other CERN studies/projects
Beam parameters must be determined based on user request
And remember that operation with light ions can trigger serious radiation issues
![Page 19: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/19.jpg)
Transfer Lines and LEIR Do not jeopardize the heavy ion program No change to Linac-LEIR transfer line No major change to LEIR machine
Except: New power supplies for some elements
main bends operationally limited to 4.8 Tm, i.e. C6+ @ 250 Mev/u; design limit is 6.7 Tm i.e. 440 MeV/u
some power supplies in transfer lines might limit the ability to quickly change from light to heavy ions
New slow extraction system
![Page 20: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/20.jpg)
Slow extraction
Detailed studies taking 12C6+ reference ion at energies 430 Mev/u and 20 MeV/u
Additional septa must not reduce acceptance for heavy ion accumulation
Determines position of septa:≈ -45 mm for electrostatic septum and ≈ -55 mm for magnetic septum
Local orbit bump required around septa (otherwise most ions lost at other places as e.g. the magnetic septum for the fast ejection towards PS)
Quad driven extraction+ Easy to implement- Intensity Fluctuations- Varying beam parameters during spill
Easier to Implement
RF knock-out extraction+ Smooth spill with fast on/off+ Constant beam parameters during spill
- New hardware to be installed
Better beam quality
![Page 21: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/21.jpg)
Slow extraction Slow extraction based on
3rd integer resonance Shift of tune to bring particles into resonance Transverse excitation (RF knock-out)
Established method using existing or recuperated hardware, few new hardware
![Page 22: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/22.jpg)
ES
Slow Extraction
Sextupoles to Adjust chromaticities and Excite 3rd order resonance for extraction Hardt condition
Align separatrices used for extraction for different momenta
Aperture and loss optimisations
Sextupole settings at high energy challenging Solutions compatible with magnet limits
for both lattices found if one acceptshigh chromaticities
LEIR: Q’ = 9 in horizontal plane for Hardt condition
LEAR: Q’ = -8 in vertical due to limitedsextupolar strengths
Use of sextupole magnets and bendingmagnet pole face windings (PFWs)
Phase space plot at the position of the electrostatic septum for LEIR latticeTwo particles with different momenta
![Page 23: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/23.jpg)
ES
MSMS
Septa Electrostatic Magnetic
Physical Length 86 cm 120 cm
Effective Length 66 cm 100 cm
Septum Thickness 0.1 mm 10 mm
Field Strength 7 MV/m 0.5 T
Kick (400 MeV/u C6+) 3.4 mrad 80 mrad
- Critical point is ES: very limited space + field strength limited by vacuum requirements
for Pb operation
Extracted
beam
Extraction geometry and Septa
Extracted beam passes through modified kicker tank
![Page 24: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/24.jpg)
Beam Lines Hor. @ 440 MeV/u Vert. @ 70 Mev/u
Pencil Beam : 5-10mm FWHM Broad Beam : 50 x 50 mm2
Field uniformity of better than 90% by cutting out large fraction of beam outside Gaussian core,but radiation protection and beam stability to be studied.
4 bends 12 quadrupoles Octupoles ? Wobbling or
scanning devices ?
![Page 25: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/25.jpg)
Potential RP Issues LEIR
First calculations only (S.Damjanovic)
Expect high radiation levels … roof shielding?
Should be refined withupdated information(particle fluxes, vacuumchambers and magnets,additional lines ….)
New access point for operation with lighter ions ?
Beam stopper moved into EE line must be compatible with lighter ions in LEIR “Linac5”
Neutron production with 4.2 MeV/u light ions? May have serious impact on the safety aspects of Linac
Beamlines: vertical line going up ? Specific shielding ?
Ambient dose rates around LEIR loosing 2.5 107 O ions
per seconds at Ek=250 MeV/n
Am
bie
nt D
ose
-Eq
Rate
[μ
Sv/h
]
![Page 26: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/26.jpg)
Experimental Area Target station and biolab to be defined and constructed
Patient treatment and live animal studies are excludedLive cells and other samples must be accommodated
Sample preparation and handling requirements ? Operational issues linked to lifecycle of samples ? Regulatory issues ?
Imagery and diagnostics ? Beam quality on delivery
Beam homogeneity over large areas (octupoles or other strategies) Beam scanning and rastering (hardware and controls)
Request for full energy at the vertical beamline
![Page 27: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/27.jpg)
Beam Instrum. and Controls Control of extracted beam
Position: limit unwanted wobbling Intensity: ions/s, or dose equivalent ?
Instrumentation for very low fluxesand/or very diluted beams…
Link with biolab instrumentation : Imagery Dosimetry: feedback on dose delivered ?
Specific controls issues ?
![Page 28: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/28.jpg)
Status and conclusions Demand exists for radiobiological research with ion beams
For studies required for a better understanding of phenomena relevant for hadron therapy
Which are not satisfied by existing installations (physics labs and hadron therapy centers)
Proposal: upgrade of the Low Energy Ion Ring LEIR (moderate effort)
ECR source and “Linac 5” front end selected Detailed studies have started, and will include integration studies Requires clear users’ requirements
LEIR modifications fairly clear and within reach Slow extraction; needs some HW design, use of spares and integration Upgrade of main bends + transfer line power supplies
Radiation protection issues (Linac to end stations) need to be addressed and will likely have serious impact (e.g. roof over LEIR)
![Page 29: Ghislain Roy presenting work of C. Carli, A. Garonna, D. Abler D. Kuchler, V. Toivanen, S. Myers, M. Dosanjh, and many others OPENMED - BioLEIR.](https://reader035.fdocuments.in/reader035/viewer/2022062308/56649d705503460f94a52611/html5/thumbnails/29.jpg)
Status and conclusions Beamline design needs more work
Depends also on users’ requirements
Experimental areas, BI, CO, integration not yet addressed
Operational scenarios should also be envisaged between potential users and accelerator specialists -> required instrumentation and handles…
Aim to have a comprehensive descriptive document by end of 2016 covering the entire facility from source to end stations.