Cascade dynamics of kaonic nitrogen atom (K-N) in a gaseous target was simulated using a simple model. In this model the radiative transitions, internal Auger, K-electron refilling, nuclear absorption, and kaon decay processes were included. The effect of the K-electron refilling process on some of quantities of cascade dynamics such as X-ray yields, the averaged K-electron shell number, fraction of the nuclear absorption and the averaged de-excitation time was studied by Monte-Carlo method. Using a fitting method, the range of K-electron refilling rate was predicted between 0.1 to 0.6 ps-1. This result is in agreement with the theoretical value.
Raeisi Gahroei,M. (2019). Study of cascade dynamics of kaonic nitrogen atom by Monte-Carlo method. Iranian Journal of Physics Research, 11(4), 379-385.
MLA
Raeisi Gahroei,M. . "Study of cascade dynamics of kaonic nitrogen atom by Monte-Carlo method", Iranian Journal of Physics Research, 11, 4, 2019, 379-385.
HARVARD
Raeisi Gahroei M. (2019). 'Study of cascade dynamics of kaonic nitrogen atom by Monte-Carlo method', Iranian Journal of Physics Research, 11(4), pp. 379-385.
CHICAGO
M. Raeisi Gahroei, "Study of cascade dynamics of kaonic nitrogen atom by Monte-Carlo method," Iranian Journal of Physics Research, 11 4 (2019): 379-385,
VANCOUVER
Raeisi Gahroei M. Study of cascade dynamics of kaonic nitrogen atom by Monte-Carlo method. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2019; 11(4): 379-385.
