Physics of carbon ions and principles of beam scanning

1. Physics of carbon ions and principles of beam scanning G. Kraft Biophysik, GSI, Darmstadt, Germany

2. Physical and technical features of proton and carbon beams Inverse depth dose profile Lateral scattering and dose gradients Intensity modulated beam delivery In vivo PET control of the beam Extension to moving targets

4. fragmentation of heavy ions

6. Lateral Scattering

8. Treatment Plan with edge effects

9. Scattering and irradiation geometry

12. Passive beam modulation

13. CASE 2 BENIGN MENINGIOMA (recurrence after 2 surgeries) with invasive growth in the lateral and upper aspects of left orbit displacing the optic nerve PRESCRIPTION: AVERAGE DOSE to PTV (CTV + 3 mm) = 56 Gy�

17. Principle of raster scanning

20. Active Rasterscanning and Monitoring  Evtl Animation Evtl Animation

21. Intensity distributon in a sphere

24. Positron Emission Tomography (PET)

25. In situ control with PET

26. Verifying the position of the irradiation field

27. Range measurements of carbon ions

29. Target Motion Destroys Volume Conformity

32. Patient treatment plan

33. Influence of target motion

34. Summary: Physical and technical properties of proton and carbon beams Inverse depth dose profile Lateral scattering and dose gradients Intensity modulated beam delivery In vivo PET control of the beam Extension to moving targets

35. Thank you