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Frederick Becchetti Jr
Professor

Office: 2241 Randall
Email: fdb@umich.edu
Phone: 764-1598

http://research.physics.lsa.umich.edu/twinsol/

Additional Information:
Lab: 2225 Randall
Fax: 764-6843

Education: University of Minnesota B.S. 1965; University of Minnesota M.S. 1968; University of Minnesota Ph.D. 1969.

Research Field: Nuclear Experiment; Medical Physics

Research Focus: short-lived nuclear beams; heavy ion collisions; nuclear instrumentation; radiation oncology and nuclear medicine

Professor Becchetti and his group produce and study nuclear reactions with short-lived unstable nuclei, such as 6He, 8Li and 7Be. Studies of nuclear reactions involving these nuclei provide new, detailed information on the creation of the elements in the Big Bang and the present density and distribution of matter in the Universe. Recently, Professor Becchetti’s group has been developing techniques to provide magnetic confinement of the dose from electron and x-ray beams used in cancer therapy. Both of the above research areas involve the development and use of large superconducting ion-optical magnet systems.

Professor Becchetti is a Fellow of the American Physical Society.

Selected Publications

The (⁷Be, ³He) Reaction: A New Tool for a-Transfer Studies, (H. Amro, F.D. Becchetti, Yu Chen, Hao Jiang, M. Ojaruega, M.J. Golobish, H.C. Griffin, J.J. Kolata, B. Skorodumov, G.F. Peaslee, P.A. DeYoung, P. Mears, D. Denby, J.A. Brown, and J.D. Hinnefeld), Euro Phys J., in press.

Radiotherapy, Heavy Ions and Electrons, F.D. Becchetti in Encyclopedia of Medical Devices and Instrumentation, edited by John G. Webster, Second Edition V6, P. 1-13 Wiley Interscience, 2006.

The (⁸Li, a) Reaction at Low Energy: Direct ⁴H Cluster Transfer?, (F.D. Becchetti, R.S. Raymond, D.A. Roberts, J. Lucido, P.A. DeYoung, B. Hildore, J. Hilldore, J. Bychowski, A.J. Huisman, P.J. VanWylen, J.J. Kolata, G. Rogachev, and J.D. Hinnefeld), Phys Rev C 72, 054610 (2005).

Magnetic Confinement of Electron and Photon Radiotherapy Dose - a Monte Carlo Simulation with a non-uniform Longitudinal Magnetic Field, (Y. Chen, A.F. Bielajew, D.W. Litzenberg, J. Moran, F.D. Becchetti), Med Phys 32, 3810-3818 (2005).

Perspective: Evidence for Nuclear Reactions in Imploding Bubbles, (F.D. Becchetti), Science 295, 1850 (2002).




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