High-speed computational procedures for space radiation shielding have relied on asymptotic expansions in terms of the off-axis scatter and replacement of the general geometry problem by a collection of flat plates. This type of solution was derived for application to human rated systems in which the radius of the shielded volume is large compared to the off-axis diffusion limiting leakage at lateral boundaries. Over the decades these computational codes are relatively complete and lateral diffusion effects are now being added. The analysis for developing a practical full 3D space shielding code is presented
The space radiation transport code, HZETRN, has been used extensively for research, vehicle design o...
The dose reduction rates brought about by the installation of additional water shielding in a space ...
Abstract: We show the necessity for a new approach towards comprehensive and consistent simulations ...
Early space radiation shield code development relied on Monte Carlo methods and made important contr...
Citation: Wilson JW, Slaba TC, Badavi FF, Reddell BD, and Bahadori AA 2014 3D Space Radiation Transp...
Since astronauts on future deep space missions will be exposed to dangerous radiations, there is a n...
Current methods of treating complex geometry models for space radiation transport calculations are r...
It is well known that one of the largest obstacles to be solved to enable safe future humanactivitie...
A practical method for computing the effectiveness of a space nuclear shield perforated by small tub...
Shielding calculations for penetrations in the SNS accelerator environment are presented based on hy...
Errors due to spatial differencing methods and mesh size in two-dimensional and three-dimensional di...
One major obstacle to human space exploration is the possible limitations imposed by the adverse eff...
Spatial channel theory, initially introduced in 1977 by M. L. Williams and colleagues at ORNL, is a ...
This Progress Report covering the period of 1 June 1993 to 1 Dec. 1993 presents the development of a...
Radiation is defined as ionizing if it has enough energy to remove electrons from atoms or molecules...
The space radiation transport code, HZETRN, has been used extensively for research, vehicle design o...
The dose reduction rates brought about by the installation of additional water shielding in a space ...
Abstract: We show the necessity for a new approach towards comprehensive and consistent simulations ...
Early space radiation shield code development relied on Monte Carlo methods and made important contr...
Citation: Wilson JW, Slaba TC, Badavi FF, Reddell BD, and Bahadori AA 2014 3D Space Radiation Transp...
Since astronauts on future deep space missions will be exposed to dangerous radiations, there is a n...
Current methods of treating complex geometry models for space radiation transport calculations are r...
It is well known that one of the largest obstacles to be solved to enable safe future humanactivitie...
A practical method for computing the effectiveness of a space nuclear shield perforated by small tub...
Shielding calculations for penetrations in the SNS accelerator environment are presented based on hy...
Errors due to spatial differencing methods and mesh size in two-dimensional and three-dimensional di...
One major obstacle to human space exploration is the possible limitations imposed by the adverse eff...
Spatial channel theory, initially introduced in 1977 by M. L. Williams and colleagues at ORNL, is a ...
This Progress Report covering the period of 1 June 1993 to 1 Dec. 1993 presents the development of a...
Radiation is defined as ionizing if it has enough energy to remove electrons from atoms or molecules...
The space radiation transport code, HZETRN, has been used extensively for research, vehicle design o...
The dose reduction rates brought about by the installation of additional water shielding in a space ...
Abstract: We show the necessity for a new approach towards comprehensive and consistent simulations ...