Modifications to the basic computer program for performing the simulations are reported. The major changes include: (1) extension of the calculations to include the development of cascades initiated by heavy nuclei, (2) improved treatment of the nuclear disintegrations which occur during the interactions of hadrons in heavy absorbers, (3) incorporation of accurate multi-pion final-state cross sections for various interactions at accelerator energies, (4) restructuring of the program logic so that calculations can be made for sandwich-type detectors, and (5) logic modifications related to execution of the program
Detectors for high energy nuclear physics experiments are being modeled using programs developed and...
The NASA/GSFC high energy cosmic ray experiment was calibrated during the summer of 1970 using proto...
The interaction of energetic ions with matter is responsible for many of the processes by which the ...
A Monte Carlo simulation method was developed for studying nuclear-electromagnetic cascades initiate...
An ionization spectrometer consisting of a sandwich of iron absorbers and plastic scintillation coun...
Mean values and fluctuations of the nuclear-electromagnetic cascade development resulting from alpha...
Development of model for description of nucleon-nucleon and pion-nucleon collisions at high energy a...
This thesis is concerned with the computer simulation of large cosmic ray showers. After a general i...
Simulating the Space Radiation environment with Monte Carlo Codes, such as FLUKA, requires the abili...
We have developed a Monte Carlo model of the Earth's atmosphere and implemented it in three differen...
MARS15 is a Monte Carlo code for inclusive and exclusive simulation of three-dimensional hadronic an...
This paper describes the Monte Carlo program used for the simulation of antiproton interactions at i...
Properties of ionization spectrometer exposed to 10, 20.5, and 28 GeV/c synchrotron accelerated prot...
Detailed Monte Carlo simulations of extensive air showers to be detected by the Homestake Surface Un...
Monte Carlo codes for IBM 7090 digital computer to calculate radiation heating in propellant tanks, ...
Detectors for high energy nuclear physics experiments are being modeled using programs developed and...
The NASA/GSFC high energy cosmic ray experiment was calibrated during the summer of 1970 using proto...
The interaction of energetic ions with matter is responsible for many of the processes by which the ...
A Monte Carlo simulation method was developed for studying nuclear-electromagnetic cascades initiate...
An ionization spectrometer consisting of a sandwich of iron absorbers and plastic scintillation coun...
Mean values and fluctuations of the nuclear-electromagnetic cascade development resulting from alpha...
Development of model for description of nucleon-nucleon and pion-nucleon collisions at high energy a...
This thesis is concerned with the computer simulation of large cosmic ray showers. After a general i...
Simulating the Space Radiation environment with Monte Carlo Codes, such as FLUKA, requires the abili...
We have developed a Monte Carlo model of the Earth's atmosphere and implemented it in three differen...
MARS15 is a Monte Carlo code for inclusive and exclusive simulation of three-dimensional hadronic an...
This paper describes the Monte Carlo program used for the simulation of antiproton interactions at i...
Properties of ionization spectrometer exposed to 10, 20.5, and 28 GeV/c synchrotron accelerated prot...
Detailed Monte Carlo simulations of extensive air showers to be detected by the Homestake Surface Un...
Monte Carlo codes for IBM 7090 digital computer to calculate radiation heating in propellant tanks, ...
Detectors for high energy nuclear physics experiments are being modeled using programs developed and...
The NASA/GSFC high energy cosmic ray experiment was calibrated during the summer of 1970 using proto...
The interaction of energetic ions with matter is responsible for many of the processes by which the ...