Title :
Calculation of Thermal Fluence from Extremely High-Energy Emission in Air
Author :
Heesoo Jung ; Woosup Shim
Author_Institution :
Agency for Defense Dev., Daejeon, South Korea
Abstract :
Thermal radiation from high-energy emission event, such as nuclear explosion, is characterized by a wide energetic spectrum in air. Black body assumption for the fireball associated with this radiation serves as a reasonable approximation for interpreting the thermal radiation emission characteristics. In this study, the time-integrated thermal flux received by a target on the ground and facing a nuclear burst, was calculated as a function of yield, burst elevation, ground range, and visibility. Results of our calculations were compared with previously reported results for different conditions.
Keywords :
radiation monitoring; black body assumption; burst elevation; extremely high-energy emission; ground range; high-energy emission event; nuclear burst; nuclear explosion; thermal fluence calculation; thermal radiation emission characteristics; time-integrated thermal flux; Atomic measurements; Color; Explosions; Heating; Mathematical model; Nuclear weapons; Fireball; high-energy explosion; numerical modeling; thermal fluence; thermal radiation;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2015.2421891
