F.G. Alexander scite author profile

F.G. Alexander

3Publications

38Citation Statements Received

53Citation Statements Given

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Affiliations

München Klinik, Technical University of Munich, Rechts der Isar Hospital

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Energy dependent track structure parametrisations for protons and carbon ions based on nanometric simulations

et al. 2015

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Abstract. The BioQuaRT project within the European Metrology Research Programme aims at correlating ion track structure characteristics with the biological effects of radiation and develops measurement and simulation techniques for determining ion track structure on different length scales from about 2 nm to about 10 µm. Within this framework, we investigate methods to translate track-structure quantities derived on a nanometre scale to macroscopic dimensions. Input data sets were generated by simulations of ion tracks of protons and carbon ions in liquid water using the Geant 4 Monte Carlo toolkit with the Geant4-DNA processes. Based on the energy transfer points − recorded with nanometre resolution − we investigated parametrisations of overall properties of ion track structure. Three different track structure parametrisations have been developed using the distances to the 10 next neighbouring ionisations, the radial energy distribution and ionisation cluster size distributions. These parametrisations of nanometric track structure build a basis for deriving biologically relevant mean values which are essential in the clinical situation where each voxel is exposed to a mixed radiation field.

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Local weighting of nanometric track structure properties in macroscopic voxel geometries for particle beam treatment planning

et al. 2015

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The research project BioQuaRT within the European Metrology Research Programme aimed at correlating ion track structure characteristics with the biological effects of radiation and developed measurement and simulation techniques for determining ion track structure on different length scales from about 2 nm to about 10 μm. Within this framework, we investigated methods to translate track-structure quantities derived on a nanometre scale to macroscopic dimensions. Here we make use of parameterizations that link the energy of the projectile to the ionization pattern of the track using nanodosimetric ionization cluster size distributions. They were defined with data generated by simulations of ion tracks in liquid water using the Geant4 Monte Carlo toolkit with the Geant4-DNA processes. For the clinical situation with a mixed radiation field, where particles of various energies hit a cell from several directions, we have to find macroscopic relevant mean values. They can be determined by appropriate local weighting functions for the identified parameterization. We show that a stopping power weighted mean value of the mentioned track structure properties can describe the overall track structure in a cell exposed to a mixed radiation field. The parameterization, together with the presented stopping power weighting approach, show how nanometric track structure properties could be integrated into treatment planning systems without the need to perform time consuming simulations on the nanometer level for each individual patient.

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Some aspects of the negative ion mass spectrometry of complex organic molecules

Alexander

Bigley

Todd

1974

Vacuum

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F.G. Alexander

Energy dependent track structure parametrisations for protons and carbon ions based on nanometric simulations

Local weighting of nanometric track structure properties in macroscopic voxel geometries for particle beam treatment planning

Some aspects of the negative ion mass spectrometry of complex organic molecules

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