F. Hajnal scite author profile

F. Hajnal

5Publications

56Citation Statements Received

11Citation Statements Given

How they've been cited

108

How they cite others

Affiliations

United States Department of Energy

Publications

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Biological Effectiveness of High-Energy Protons: Target Fragmentation

Cucinotta¹,

Katz²,

Wilson³

et al. 1991

Radiation Research

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High-energy protons traversing tissue produce local sources of high-linear-energy-transfer (LET) ions through nuclear fragmentation. We examine the contribution of these target fragments to the biological effectiveness of high-energy protons using the cellular track model. The effects of secondary ions are treated in terms of the production collision density using energy-dependent parameters from a high-energy fragmentation model. Calculations for mammalian cell cultures show that at high dose, at which intertrack effects become important, protons deliver damage similar to that produced by y rays, and with fragmentation the relative biological effectiveness (RBE) of protons increases moderately from unity. At low dose, where sublethal damage is unimportant, the contribution from target fragments dominates, causing the proton effectiveness to be very different from that of y rays with a strongly fluence-dependent RBE. At high energies, the nuclear fragmentation cross sections become independent of energy. This leads to a plateau in the proton single-particle-action cross section, below 1 keV/pm, since the target fragments dominate. o

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Semi-empirical efficiency equations for Ge(Li) detectors

Hajnal¹,

Klusek²

1974

Nuclear Instruments and Methods

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Calculation of Dose, Dose Equivalent, and Relative Biological Effectiveness for High Charge and Energy Ion Beams

Wilson¹,

Reginatto

Hajnal

et al. 1995

Health Physics

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Energy Deposition at the Bone-Tissue Interface from Nuclear Fragments Produced by High-energy Nucleons

Cucinotta

Hajnal²,

Wilson³

1990

Health Physics

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The transport of nuclear fragmentation recoils produced by high-energy nucleons in the region of the bone-tissue interface is considered. Results for the differential flux and absorbed dose for recoils produced by 1-GeV protons are presented in a bidirectional transport model. The energy deposition in marrow cavities is seen to be enhanced by recoils produced in bone. Approximate analytic formulae for absorbed dose near the interface region are also presented for a simplified range-energy model.

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TFTR Radiation Contour and Shielding Efficiency Measurements During D-D Operations

et al. 1994

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Extensive neutron and gamma radiation contour, shielding efficiency, and spectral measurements were performed during high power TFI'R D-D operations at the tokamak Test Cell inner walls, ceiling, roof, and outer walls, in nearby control rooms, work areas, and personnel pathways, outdoors along the site fence at 125 m, and out to the nearest property lines at 180 m. The results confirmed that the efficiency of the basic radiation shieIding was sufficient to allow the TFI'R D-T experimental p h , and provide empirical guidance for simulating the radiation fields of fume fusion reactors.

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F. Hajnal

Biological Effectiveness of High-Energy Protons: Target Fragmentation

Semi-empirical efficiency equations for Ge(Li) detectors

Calculation of Dose, Dose Equivalent, and Relative Biological Effectiveness for High Charge and Energy Ion Beams

Energy Deposition at the Bone-Tissue Interface from Nuclear Fragments Produced by High-energy Nucleons

TFTR Radiation Contour and Shielding Efficiency Measurements During D-D Operations

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