Abstract
The heavy ion interaction of 11.67 MeV/u {sup 197}Au+ {sup 197}Au has been investigated using mica as a passive detector. By employing Solid State Nuclear Track Detection Technique the data of elastic scattering as well as inelastic reaction channel was collected. The off-line data analysis of multi-pronged events was performed by measuring the three-dimensional geometrical coordinates of correlated tracks on event-by-event basis. Multi pronged events observed in this reaction were due to sequential and double sequential fission. Using a computer code PRONGY based on the procedure of internal calibration, it was possible to derive quantities like mass transfer, total kinetic energy loss and scattering angles. (author)
Nasir, Tabassum;
[1]
Khan, Ehsan Ullah;
[2]
Baluch, Javaid Jahan;
[3]
Shafi-Ur-Rehman,;
[4]
Matiullah,;
[5]
Rafique, Muhammad
[6]
- Gomal University, Dera Ismail Khan (Pakistan). Dept. of Physics
- COMSATS Institute of Information Technology (CIIT), Islamabad (Pakistan). Dept. of Physics
- COMSATS Institute of Information Technology (CIIT), Abbottabad, (Pakistan). Dept. of Environmental Sciences
- PAEC, Dera Ghazi Khan (Pakistan). ISL Project
- PINSTECH, Nilore, Islamabad (Pakistan). Physics Div.
- University of Azad Jammu and Kashmir, Muzaffarabad (Pakistan). Dept. of Physics
Citation Formats
Nasir, Tabassum, Khan, Ehsan Ullah, Baluch, Javaid Jahan, Shafi-Ur-Rehman,, Matiullah,, and Rafique, Muhammad.
Sequential and double sequential fission observed in heavy ion interaction of (11.67 MeV/u){sup 197}Au projectile with {sup 197}Au target.
Brazil: N. p.,
2009.
Web.
Nasir, Tabassum, Khan, Ehsan Ullah, Baluch, Javaid Jahan, Shafi-Ur-Rehman,, Matiullah,, & Rafique, Muhammad.
Sequential and double sequential fission observed in heavy ion interaction of (11.67 MeV/u){sup 197}Au projectile with {sup 197}Au target.
Brazil.
Nasir, Tabassum, Khan, Ehsan Ullah, Baluch, Javaid Jahan, Shafi-Ur-Rehman,, Matiullah,, and Rafique, Muhammad.
2009.
"Sequential and double sequential fission observed in heavy ion interaction of (11.67 MeV/u){sup 197}Au projectile with {sup 197}Au target."
Brazil.
@misc{etde_21237710,
title = {Sequential and double sequential fission observed in heavy ion interaction of (11.67 MeV/u){sup 197}Au projectile with {sup 197}Au target}
author = {Nasir, Tabassum, Khan, Ehsan Ullah, Baluch, Javaid Jahan, Shafi-Ur-Rehman,, Matiullah,, and Rafique, Muhammad}
abstractNote = {The heavy ion interaction of 11.67 MeV/u {sup 197}Au+ {sup 197}Au has been investigated using mica as a passive detector. By employing Solid State Nuclear Track Detection Technique the data of elastic scattering as well as inelastic reaction channel was collected. The off-line data analysis of multi-pronged events was performed by measuring the three-dimensional geometrical coordinates of correlated tracks on event-by-event basis. Multi pronged events observed in this reaction were due to sequential and double sequential fission. Using a computer code PRONGY based on the procedure of internal calibration, it was possible to derive quantities like mass transfer, total kinetic energy loss and scattering angles. (author)}
journal = []
issue = {3}
volume = {39}
place = {Brazil}
year = {2009}
month = {Sep}
}
title = {Sequential and double sequential fission observed in heavy ion interaction of (11.67 MeV/u){sup 197}Au projectile with {sup 197}Au target}
author = {Nasir, Tabassum, Khan, Ehsan Ullah, Baluch, Javaid Jahan, Shafi-Ur-Rehman,, Matiullah,, and Rafique, Muhammad}
abstractNote = {The heavy ion interaction of 11.67 MeV/u {sup 197}Au+ {sup 197}Au has been investigated using mica as a passive detector. By employing Solid State Nuclear Track Detection Technique the data of elastic scattering as well as inelastic reaction channel was collected. The off-line data analysis of multi-pronged events was performed by measuring the three-dimensional geometrical coordinates of correlated tracks on event-by-event basis. Multi pronged events observed in this reaction were due to sequential and double sequential fission. Using a computer code PRONGY based on the procedure of internal calibration, it was possible to derive quantities like mass transfer, total kinetic energy loss and scattering angles. (author)}
journal = []
issue = {3}
volume = {39}
place = {Brazil}
year = {2009}
month = {Sep}
}