Nuclear Fragmentation Reactions from Research to Applications

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Description of spallation reactions Many people have contributed to the models which are used now (multi)fragmentation MCADS employs several cascade models for the fast initial stage and Evaporation/Fermi break-up/SMM for the slow de-excitation stage
Monte Carlo model for Accelerator Driven Systems (MCADS) developed at FIAS Igor Pshenichnov, Igor Mishustin, Yury Malyshkin, Walter Greiner � Based on Geant4 toolkit (currently version 9.4 p01) � Includes secondary interactions of fast neutrons, protons and fragments � Capability to visualize target volumes, histories of primary protons and all secondary particles � Flexible scoring techniques to calculate heat deposition and count outgoing particles 600 MeV proton in uranium target, white: primary proton, green: neutrons, yellow: gammas
Page 1 and 2: NUFRA2011, Kemer, Turkey, October 2
Page 3 and 4: Centenary of Nuclear Physics Planet
Page 5 and 6: Anticipation of nuclear “explosio
Page 7 and 8: Nuclear break-up: multifragmentatio
Page 9 and 10: We with Jakob Bondorf started our t
Page 11 and 12: Part 1.1: Statistical description o
Page 13 and 14: SMM: “micro-canonical” ensemble
Page 15 and 16: Exact formula derived by Ramanajan
Page 17 and 18: Multifragmentation of relativistic
Page 19 and 20: Isoscaling and symmetry energy ALAD
Page 21 and 22: Liquid-gas phase transition in nucl
Page 23 and 24: Nuclear caloric curve Predicted in
Page 25 and 26: Bragg discovery in 1904 �W.H. Bra
Page 27 and 28: Ions can deliver significant fracti
Page 29 and 30: Ion-beam cancer therapy short histo
Page 31 and 32: Part 2.2: Cancer therapy with heavy
Page 33 and 34: 12 C nuclei fragmentation in tissue
Page 35 and 36: MCHIT simulation: importance of nuc
Page 37 and 38: Secondary fragments: models at work
Page 39 and 40: Secondary neutrons in 12 C therapy
Page 41 and 42: RBE Radiation effects on bio-molecu
Page 43: Part 2.3: Transmutation of radio- a
Page 47 and 48: Neutron interactions in W target al
Page 49 and 50: Conditions in a fissile target (U)
Page 51 and 52: � proton accelerator of 600 MeV (
Page 53 and 54: Simulations of the initial stage: f
Page 55: Gantry Heidelberg Ion-Therapy Cente

Nuclear Fragmentation Reactions from Research to Applications

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