Add to ORKGThe biological effect of heavy ions is best described through the action cross section, as a function of the end-point of interest and the charge and speed of the ion. In track theory this is called the “ion-kill cross section, for it is the effect produced by a single heavy ion and its delta rays. As with nuclear emulsions the biological track structure passes from the grain count regime to the track width regime to the thindown region with an increase in LET. With biological cells, as with any detector capable of storing sub-lethal damage, with low LET irradiation the action cross section (in the ion-kill mode) is increasingly obscured by the effect of gamma-kill” by the influence of overlapping delta rays from neighboring heavy ions. T...
Hepatoma and melanoma cells were exposed to C-12(6+) beams generated by HIRFL facility and gamma-ray...
Radiation effects induced by heavy ions in many materials with diverse end points are well described...
Radiation detection and damage data from several physical, chemical, and biological systems have bee...
The biological effect of heavy ions is best described through the action cross section, as a functio...
Track theory is a description of the structure of particle tracks which characterizes the response o...
Since the interaction of beams of charged particles with targets in physics is customarily based on ...
Many condensed matter dosimeters and detectors respond to the perspectives of track physics, a param...
Track theory is combined with a realistic model of a heavy ion beam to study the effects of nuclear ...
A model of the formation of particle tracks in emulsion has been extended through the use of biologi...
In the track structure model, the inactivation cross section is found by summing an inactivation pro...
Unanticipated late effects in neutron and heavy ion therapy, not attributable to overdose, imply a q...
Studies of the structure of particle tracks have led to models of track effects based on radial dose...
The increase in the biological efficiency is the major motivation to use ions heavier than protons f...
It has long been suggested that inactivation severely effects the probability of mutation by heavy i...
The delta-ray theory of track structure, applied earlier to such 1-or-more hit detection systems as ...
Hepatoma and melanoma cells were exposed to C-12(6+) beams generated by HIRFL facility and gamma-ray...
Radiation effects induced by heavy ions in many materials with diverse end points are well described...
Radiation detection and damage data from several physical, chemical, and biological systems have bee...
The biological effect of heavy ions is best described through the action cross section, as a functio...
Track theory is a description of the structure of particle tracks which characterizes the response o...
Since the interaction of beams of charged particles with targets in physics is customarily based on ...
Many condensed matter dosimeters and detectors respond to the perspectives of track physics, a param...
Track theory is combined with a realistic model of a heavy ion beam to study the effects of nuclear ...
A model of the formation of particle tracks in emulsion has been extended through the use of biologi...
In the track structure model, the inactivation cross section is found by summing an inactivation pro...
Unanticipated late effects in neutron and heavy ion therapy, not attributable to overdose, imply a q...
Studies of the structure of particle tracks have led to models of track effects based on radial dose...
The increase in the biological efficiency is the major motivation to use ions heavier than protons f...
It has long been suggested that inactivation severely effects the probability of mutation by heavy i...
The delta-ray theory of track structure, applied earlier to such 1-or-more hit detection systems as ...
Hepatoma and melanoma cells were exposed to C-12(6+) beams generated by HIRFL facility and gamma-ray...
Radiation effects induced by heavy ions in many materials with diverse end points are well described...
Radiation detection and damage data from several physical, chemical, and biological systems have bee...