A. Mozumder scite author profile

A stochastic simulation method employing suitable experimentally based cross sections has been developed for probing the spatial distribution of energy loss and the trajectory of 100 eV to 1 MeV electrons in gaseous and liquid water. Elastic collisions and large-energy-loss inelastic collisions strongly influence the passage of electrons such that the separation between the initial and final (E = 25 eV) position is considerably smaller than the path length. At all energies, the mean axial and the mean radial penetrations are somewhat similar, however, the former is strongly influenced by inelastic collisions and the latter by elastic collisions. The effect of phase on the density-normalized range is small for energetic electrons, but differences are apparant at the lowest energies, <2 keV. The spatial distribution of energy deposition shows a marked dependence on electron energy. The spatial dependence of radial energy deposition and dose distributions in the axial and radial directions have been calculated.

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Decay of trapped electrons by tunnelling to scavenger molecules in low-temperature glasses

Tachiya¹,

Mozumder²

1974

Chemical Physics Letters

140

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Structure of electron tracks in water. 1. Distribution of energy deposition events

Pimblott¹,

LaVerne²,

Mozumder³

et al. 1990

J. Phys. Chem.

110

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Luminescence quenching in liquid argon under charged-particle impact: Relative scintillation yield at different linear energy transfers

1992

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Model of Tracks of Ionizing Radiations for Radical Reaction Mechanisms

Mozumder¹,

Magee²

1966

Radiation Research

225

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A. Mozumder

Monte Carlo Simulation of Range and Energy Deposition by Electrons in Gaseous and Liquid Water

Decay of trapped electrons by tunnelling to scavenger molecules in low-temperature glasses

Structure of electron tracks in water. 1. Distribution of energy deposition events

Luminescence quenching in liquid argon under charged-particle impact: Relative scintillation yield at different linear energy transfers

Model of Tracks of Ionizing Radiations for Radical Reaction Mechanisms

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