Abstract
This work presents the experimental results obtained at the Louvain-La-Neuve cyclotron facility (Belgium) studying the linear and angular momentum transfers and excitation energy associated to the heavy fragments emitted in the {sup 36}Ar + {sup 124}Sn at 15.3 MeV/nucleon interaction. The masses and velocities of heavy fragments detected at 15{sup 0} display two components: a first component, called low velocity component, has been associated to the deep inelastic process, its characteristics being in a good agreement with theoretical prediction; the second component, called high velocity component, has been interpreted as evaporation residues from incomplete fusion mechanism... A complete disagreement between the characteristics of the second component (masses, velocities), and the so-called massive transfer has been observed. A consistent description is given for all our set of data (fragment masses and velocities, their excitation energies, the associated gamma-ray and neutron multiplicities and even the neutron energy spectra) using an extended hypothesis on incomplete fusion model... A coherent interpretation of these results needs further analysis on the supplementary results such as the light charged particles emitted in coincidences with heavy residues and projectile-like fragments.
Citation Formats
Leveque, H.
Linear momentum transfer, angular momentum transfer, excitation energy in the reaction {sup 36}Ar + {sup 124}Sn at 15.3 MeV/u; Transfert de moment lineaire, de moment angulaire, energie d`excitation dans la reaction {sup 36}Ar + {sup 124}Sn a 15,3 MeV/A.
France: N. p.,
1989.
Web.
Leveque, H.
Linear momentum transfer, angular momentum transfer, excitation energy in the reaction {sup 36}Ar + {sup 124}Sn at 15.3 MeV/u; Transfert de moment lineaire, de moment angulaire, energie d`excitation dans la reaction {sup 36}Ar + {sup 124}Sn a 15,3 MeV/A.
France.
Leveque, H.
1989.
"Linear momentum transfer, angular momentum transfer, excitation energy in the reaction {sup 36}Ar + {sup 124}Sn at 15.3 MeV/u; Transfert de moment lineaire, de moment angulaire, energie d`excitation dans la reaction {sup 36}Ar + {sup 124}Sn a 15,3 MeV/A."
France.
@misc{etde_10122859,
title = {Linear momentum transfer, angular momentum transfer, excitation energy in the reaction {sup 36}Ar + {sup 124}Sn at 15.3 MeV/u; Transfert de moment lineaire, de moment angulaire, energie d`excitation dans la reaction {sup 36}Ar + {sup 124}Sn a 15,3 MeV/A}
author = {Leveque, H}
abstractNote = {This work presents the experimental results obtained at the Louvain-La-Neuve cyclotron facility (Belgium) studying the linear and angular momentum transfers and excitation energy associated to the heavy fragments emitted in the {sup 36}Ar + {sup 124}Sn at 15.3 MeV/nucleon interaction. The masses and velocities of heavy fragments detected at 15{sup 0} display two components: a first component, called low velocity component, has been associated to the deep inelastic process, its characteristics being in a good agreement with theoretical prediction; the second component, called high velocity component, has been interpreted as evaporation residues from incomplete fusion mechanism... A complete disagreement between the characteristics of the second component (masses, velocities), and the so-called massive transfer has been observed. A consistent description is given for all our set of data (fragment masses and velocities, their excitation energies, the associated gamma-ray and neutron multiplicities and even the neutron energy spectra) using an extended hypothesis on incomplete fusion model... A coherent interpretation of these results needs further analysis on the supplementary results such as the light charged particles emitted in coincidences with heavy residues and projectile-like fragments.}
place = {France}
year = {1989}
month = {Dec}
}
title = {Linear momentum transfer, angular momentum transfer, excitation energy in the reaction {sup 36}Ar + {sup 124}Sn at 15.3 MeV/u; Transfert de moment lineaire, de moment angulaire, energie d`excitation dans la reaction {sup 36}Ar + {sup 124}Sn a 15,3 MeV/A}
author = {Leveque, H}
abstractNote = {This work presents the experimental results obtained at the Louvain-La-Neuve cyclotron facility (Belgium) studying the linear and angular momentum transfers and excitation energy associated to the heavy fragments emitted in the {sup 36}Ar + {sup 124}Sn at 15.3 MeV/nucleon interaction. The masses and velocities of heavy fragments detected at 15{sup 0} display two components: a first component, called low velocity component, has been associated to the deep inelastic process, its characteristics being in a good agreement with theoretical prediction; the second component, called high velocity component, has been interpreted as evaporation residues from incomplete fusion mechanism... A complete disagreement between the characteristics of the second component (masses, velocities), and the so-called massive transfer has been observed. A consistent description is given for all our set of data (fragment masses and velocities, their excitation energies, the associated gamma-ray and neutron multiplicities and even the neutron energy spectra) using an extended hypothesis on incomplete fusion model... A coherent interpretation of these results needs further analysis on the supplementary results such as the light charged particles emitted in coincidences with heavy residues and projectile-like fragments.}
place = {France}
year = {1989}
month = {Dec}
}