Add to ORKGThe spatial distributions and correlation of stochastic energy deposition events produced in macromolecular volumes by a radiation field are of increasing importance in understanding radiation effects in biological materials. Studies of radiation action involving cell inactivation and mutation as well as single- and double-strand breaks in DNA indicate that energy deposition in volumes as small as nanometer dimensions may be required for interpretation. Correlation of spatial and temporal energy deposition events may be particularly important where the radiation effects result from pairing of sublesions within a specified volume. These examples demonstrate a clear need for knowledge of the energy concentrations randomly deposited in very sm...
Radiotherapy is a widely used therapeutic tool. Development of new techniques in radiotherapy rely o...
To understand the biological effects of radiation, it is important to determine how ionizing radiati...
In modern physics we are interested in systems with many degrees of freedom. The Monte Carlo (MC) me...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Calculations of energy deposition in cylindrical target volumes of diameter and height 1-100 nm, inc...
International audienceThis article presents the results of the simulated irradiation with protons an...
International audienceThis article presents the results of the simulated irradiation with protons an...
International audienceThis article presents the results of the simulated irradiation with protons an...
The biological outcomes from charged particle radiation exposure are heavily influenced by the spati...
Radiation measurements and dosimetry usually require reliable values of physical quantities that des...
A Monte Carlo technique has been employed to calculate the energy deposition events in small cylindr...
The biological outcomes from charged particle radiation exposure are heavily influenced by the spati...
The secondary electrons excited during fast charged particle irradiation of solids play a relevant r...
This work is the first stage in the development of an inclusive approach to calculation of the DNA ...
Radiotherapy is a widely used therapeutic tool. Development of new techniques in radiotherapy rely o...
To understand the biological effects of radiation, it is important to determine how ionizing radiati...
In modern physics we are interested in systems with many degrees of freedom. The Monte Carlo (MC) me...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Calculations of energy deposition in cylindrical target volumes of diameter and height 1-100 nm, inc...
International audienceThis article presents the results of the simulated irradiation with protons an...
International audienceThis article presents the results of the simulated irradiation with protons an...
International audienceThis article presents the results of the simulated irradiation with protons an...
The biological outcomes from charged particle radiation exposure are heavily influenced by the spati...
Radiation measurements and dosimetry usually require reliable values of physical quantities that des...
A Monte Carlo technique has been employed to calculate the energy deposition events in small cylindr...
The biological outcomes from charged particle radiation exposure are heavily influenced by the spati...
The secondary electrons excited during fast charged particle irradiation of solids play a relevant r...
This work is the first stage in the development of an inclusive approach to calculation of the DNA ...
Radiotherapy is a widely used therapeutic tool. Development of new techniques in radiotherapy rely o...
To understand the biological effects of radiation, it is important to determine how ionizing radiati...
In modern physics we are interested in systems with many degrees of freedom. The Monte Carlo (MC) me...