Add to ORKGA nonperturbative analytic solution of the high charge and energy (HZE) Green's function is used to implement a computer code for laboratory ion beam transport in multiple-layered materials. The code is established to operate on the Langley nuclear fragmentation model used in space engineering applications. Computational procedures are established to generate linear energy transfer (LET) distributions for a specified ion beam and target for comparison with experimental measurement. Comparison with Fe-56 ion with Pb-Al and Pb-(CH2)(x) targets shows reasonable agreement
The development of the theory of high charge and energy (HZE) ion transport is reviewed. The basic s...
The new version of the HZETRN deterministic transport code based on Green's function methods, and th...
The HZETRN code was used in recent trade studies for renewed lunar exploration and currently used in...
A nonperturbative analytic solution of the high charge and energy (HZE) Green's function is used to ...
A nonperturbative analytic solution of Green's function for heavy ion transport in a single medium i...
An analytic solution for high energy heavy ion transport assuming straightahead and velocity conserv...
An analytic solution to the heavy ion transport in terms of Green's function is used to generate a h...
This Final Progress Report for NCC-1-178 presents the details of the engineering development of an a...
The transport of high energy heavy (HZE) ions through bulk materials is studied neglecting energy de...
This Progress Report covering the period of December 1, 1992 to June 1, 1993 presents the developmen...
For many years work has been conducted on developing a concise theory and method for HZE ion transpo...
A theoretical description of the transport of high-charge and high-energy (HZE) ion bombardment of b...
A fragmenting iron ion produces hundreds of isotopes during nuclear reactions. These isotopes are re...
A monoenergetic version of the BRYNTRN transport code is extended to beam transport of light ions (H...
Ion beam transport theory allows testing of material transmission properties in the laboratory envir...
The development of the theory of high charge and energy (HZE) ion transport is reviewed. The basic s...
The new version of the HZETRN deterministic transport code based on Green's function methods, and th...
The HZETRN code was used in recent trade studies for renewed lunar exploration and currently used in...
A nonperturbative analytic solution of the high charge and energy (HZE) Green's function is used to ...
A nonperturbative analytic solution of Green's function for heavy ion transport in a single medium i...
An analytic solution for high energy heavy ion transport assuming straightahead and velocity conserv...
An analytic solution to the heavy ion transport in terms of Green's function is used to generate a h...
This Final Progress Report for NCC-1-178 presents the details of the engineering development of an a...
The transport of high energy heavy (HZE) ions through bulk materials is studied neglecting energy de...
This Progress Report covering the period of December 1, 1992 to June 1, 1993 presents the developmen...
For many years work has been conducted on developing a concise theory and method for HZE ion transpo...
A theoretical description of the transport of high-charge and high-energy (HZE) ion bombardment of b...
A fragmenting iron ion produces hundreds of isotopes during nuclear reactions. These isotopes are re...
A monoenergetic version of the BRYNTRN transport code is extended to beam transport of light ions (H...
Ion beam transport theory allows testing of material transmission properties in the laboratory envir...
The development of the theory of high charge and energy (HZE) ion transport is reviewed. The basic s...
The new version of the HZETRN deterministic transport code based on Green's function methods, and th...
The HZETRN code was used in recent trade studies for renewed lunar exploration and currently used in...