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The track structures of ionizing particles and their application to radiation biophysics (1999)

Briden, P. E. ; Holt, P. D. ; Simmons, J. A.

Springer

Radiation and environmental biophysics 38 (1999), S. 175-184

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ISSN: 1432-2099

Keywords: Key words Alpha particle ; Deuteron ; Proton ; Biophysical modeling ; Radiation quality influence ; Bacillus subtilis ; DNA density ; Monte Carlo calculations

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Physics

Notes: Abstract A new approach to the interpretation of the effects of radiation on cells is described, in which sample particle tracks are constructed using a Monte Carlo computer program and the exposure of cellular targets to these tracks is simulated using a second program known as BIOPHYS. Data on the shapes and DNA contents of the cell nuclei are obtained from the literature. It is assumed that the sensitive material is DNA, and that the target is divided into cubes of approximately 2 nm (the diameter of the DNA helix) per side; the numbers of these cubes containing different numbers of ionizations are derived. Two different methods of analysing the output of BIOPHYS are described. In the first, it is assumed that lethality is caused by the occurrence of a number of ionizations equal to or greater than a certain threshold in one cube; in the second method, it is assumed that only two ionizations are required, in different parts of the cube, but that only some fraction of the cube is sensitive. These models have been applied to the interpretation of the variation of radiosensitivity with a linear energy transfer (LET) of spores of Bacillus subtilis exposed wet and dry, and good fits to the published experimental data were obtained using both models. Fits to experimental data for a range of other cell lines will be presented in a second paper.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004110050153

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Effect of the nuclear hyperfine field on the 2D electron conductivity in the quantum Hall regime (1999)

Vitkalov, S. A. ; Bowers, C. R. ; Simmons, J. A. ; [et al.]

Springer

JETP letters 69 (1999), S. 64-70

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ISSN: 1090-6487

Keywords: 73.40.Hm ; 72.15.−v ; 73.20.Dx

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract The effect of the nuclear hyperfine interaction on the dc conductivity of 2D electrons under quantum Hall effect conditions at filling factor ν=1 is observed for the first time. The local hyperfine field enhanced by dynamic nuclear polarization is monitored via the Overhauser shift of the 2D conduction electron spin resonance in AlGaAs/GaAs multiquantum-well samples. The experimentally observed change in the dc conductivity resulting from dynamic nuclear polarization is in agreement with a thermal activation model incorporating the Zeeman energy change due to the hyperfine interaction. The relaxation decay time of the dc conductivity is, within experimental error, the same as the relaxation time of the nuclear spin polarization determined from the Overhauser shift. These findings unequivocally establish the nuclear spin origins of the observed conductivity change.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1134/1.567985

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