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Implementation of the Geometry Dependent Hybrid Model in TALYS
A. Yu. Konobeyev,U. Fischer,P. E. Pereslavtsev,A. J. Koning,M. Blann 한국물리학회 2011 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.59 No.23
The geometry dependent hybrid model (GDH) developed by M.Blann and suppliedby the models for the non-equilibrium cluster emission was implemented inthe TALYS code. A number of subroutines from the ALICE and ALICE/ASH codeswere introduced in TALYS after appropriate modifications. Commoncomputations as those relating to binding energies, the optical model andothers are performed by means of TALYS. The value of the TALYS inputvariable ``preeqmode'' equal to 5 is reserved for the use of the GDHapproach for the calculation of the pre-compound energy distributions ofnucleon and light clusters. A comparison with calculations using theoriginal ALICE and ALICE/ASH codes, on one hand, and experimental data, onthe other hand, is given. The advantages of the implementation of the GDHmodel in the TALYS code are discussed.
Measurements of Inelastic Neutron Scattering at 96 MeV from Carbon, Iron, Yttriumand Lead
A. Ohrn,C. Gustavsson,M. Blann,V. Blideanu,J. Blomgren,S. Chiba,H. Duarte,F. Haddad,C. Kalbach,J. Klug,A. Koning,C. Le brun,C. Lebrun,F. -R. Lecolley,X. Ledoux,N. Marie-noury,P. Mermod,L. Nilsson,M. O 한국물리학회 2011 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.59 No.23
Inelastic neutron scattering for ^(12)C, ^(56)Fe, ^(89)Y and ^(208)Pb have been measured at 96 MeV at the The Svedberg Laboratory in Uppsala and double-differential cross sections are reported. Data cover an excitation energy range of 0-45 MeV and the angular intervals are 28 - 58˚ for ^(12)C, 26 - 65˚ for ^(56)Fe and 26 - 52˚ for ^(89)Y and ^(208)Pb. In this experiment, neutron detection is based on conversion to protons in an active scintillator converter. An analysis technique in which the neutron spectra have been obtained through a folding procedure using the response of the detector system has been used. The results are compared to and are in reasonable agreement with several model predictions and with inelastic neutron scattering data at 65 MeV from University of California, Davis, USA.