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A Compact FFAG for Radioisotope Production D. Bruton R. Barlow, R. Edgecock, and C.J. Johnstone.

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Presentation on theme: "A Compact FFAG for Radioisotope Production D. Bruton R. Barlow, R. Edgecock, and C.J. Johnstone."— Presentation transcript:

1 David.Bruton@hud.ac.uk A Compact FFAG for Radioisotope Production D. Bruton R. Barlow, R. Edgecock, and C.J. Johnstone

2 David.Bruton@hud.ac.uk Contents Therapeutic Radioisotopes What is an FFAG? Overview of the design Machine characterisation Space charge studies Extraction and Target 2

3 David.Bruton@hud.ac.uk Therapeutic Radioisotopes Majority of UK medicinal radioisotopes are produced abroad Produced by reactors Supply has been disrupted in the past Many potentially useful isotopes can not be produced by reactors – 211 At, 67 Cu, 47 Sc, 161 Tb all need α’s for production 3 Current cyclotron produced isotopes IsotopeUse 11 C, 13 N, 15 O, 18 FPET 57 CoMarker 67 CuTherapy (Beta) 67 Ga/ 68 GaTumour imaging/PET 111 InTracer 123 IThyroid imaging 81m KrPulmonary imaging 201 TiCardio imaging

4 David.Bruton@hud.ac.uk What is an FFAG? Fixed fields, like a cyclotron. Alternating gradient focusing, like a synchrotron. Scaling: Beam dynamics identical at all energies, Pulsed with variable RF. Non-Scaling: Continuous wave with fixed RF, Beam dynamics vary across energy range, tune crossing. 4

5 David.Bruton@hud.ac.uk Some Examples Scaling KURRI main ring Protons 11-150 MeV For ADSR research Non-Scaling EMMA Electrons 10-20 MeV Proof-of-principle for NS- FFAGs 5

6 David.Bruton@hud.ac.uk 6

7 Small cyclotron type proton FFAG Non-Scaling and non- linear 4 Separate sector magnets 2 RF Cavities 7 Machine Overview

8 David.Bruton@hud.ac.uk Three sources of beam focusing: – Gradient Focusing – Weak Focusing – Edge Focusing 8 Radially varying magnetic field provides focusing in the horizontal plane

9 David.Bruton@hud.ac.uk Magnet geometry optimised with field gradient to create isochronous machine Time of flight variation less than 0.2% 9

10 David.Bruton@hud.ac.uk Injection at 75keV, r=100mm Extraction at 28MeV, r=1692mm Vertical Tune crosses resonances at low energy 10

11 David.Bruton@hud.ac.uk 144 turns to reach 28MeV with 200kV per turn Injection by spiral inflector, Or perhaps radially? 11

12 David.Bruton@hud.ac.uk Dynamic Aperture 0.075 MeV Horizontal 6.3 π*m*mradVertical 1.4 π*m*mrad 12

13 David.Bruton@hud.ac.uk Dynamic Aperture 1 MeV Horizontal 42.7 π*m*mradVertical 1.5 π*m*mrad 13

14 David.Bruton@hud.ac.uk RF Phase 14

15 David.Bruton@hud.ac.uk 15

16 David.Bruton@hud.ac.uk 16 14MeV 24MeV

17 David.Bruton@hud.ac.uk 17 14MeV 24MeV

18 David.Bruton@hud.ac.uk 18

19 David.Bruton@hud.ac.uk Transmission 19

20 David.Bruton@hud.ac.uk He 2+ Acceleration 20

21 David.Bruton@hud.ac.uk Extraction Charge Exchange – Run H - ions – Simple design – Variable energy – Commonly used in cyclotrons – Not possible for He 2+ 21 [1] W. Kleeven, Injection and extraction for cyclotrons

22 David.Bruton@hud.ac.uk Electrostatic Deflector – Two DC electrodes bend the final orbit out of the machine – Needs large orbit separation at extraction – Heat loss on septum limiting factor on current 22 Extraction [2] M.Seidel, Cyclotrons for high intensity beams

23 David.Bruton@hud.ac.uk Internal Target Reaction cross-sections are energy dependent In a thick target many proton wont react before dE/dX moves them away from peak To increase efficiency use an internal target and recycle the beam Demonstrated by ERIT for neutron production 23

24 David.Bruton@hud.ac.uk Magnet Design 24

25 David.Bruton@hud.ac.uk Summary Non-Scaling proton FFAG for radioisotope production Flexible – can accelerate protons or He 2+ – Potentially variable energy High current (20mA) Beam recycling could improve production rates We want to build it! 25

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