The First Born Approximation for Ionization and Charge Transfer in Energetic Collisions of Multiply Charged Ions with Water - IN2P3 - Institut national de physique nucléaire et de physique des particules
Journal Articles Advances in Quantum Chemistry Year : 2013

The First Born Approximation for Ionization and Charge Transfer in Energetic Collisions of Multiply Charged Ions with Water

J. Hanssen
  • Function : Author
R.D. Rivarola
  • Function : Author

Abstract

With the more and more regular use of ionizing radiations in medicine and more particularly in hadrontherapy, it is today necessary to describe--with the highest degree of accuracy--the biological consequences of irradiations. To model the track-structure of charged particles in biological matter and then to quantify the full spectra of radio-induced cellular damages, Monte Carlo simulations are the preferential methods. The latter consist in modelling the history of the ionizing particles by means of a large set of input data, namely, the differential and total interaction cross sections in order to finely describe the complete kinematics of the ion-induced collisions. In these conditions, we clearly understand the necessity for the radiobiologists and the radiotherapists to access to accurate cross sections--in particular for collisions with water target--the latter being commonly used as surrogate of the cellular medium. We here report a review of the existing 1st Born predictions for describing the ionization and the charge transfer processes in the high-impact energy-regime particularly investigated in hadrontherapy.
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Dates and versions

in2p3-00825150 , version 1 (23-05-2013)

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C. Champion, J. Hanssen, R.D. Rivarola. The First Born Approximation for Ionization and Charge Transfer in Energetic Collisions of Multiply Charged Ions with Water. Advances in Quantum Chemistry, 2013, 65, pp.269-313. ⟨10.1016/B978-0-12-396455-7⟩. ⟨in2p3-00825150⟩

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