Implementation of the Geometry Dependent Hybrid Model in TALYS

75-5865 Walua Rd. D423, Kailua-Kona, HI 96740, USA(Received 26 April 2010)The geometry dependent hybrid model (GDH) developed by M. Blann and supplied by themodels for the non-equilibrium cluster emission was implemented in the TALYS code. A number ofsubroutines from the ALICE and ALICE/ASH codes were introduced in TALYS after appropriatemodi cations. Common computations as those relating to binding energies, the optical model andothers are performed by means of TALYS. The value of the TALYS input variable \preeqmode"equal to 5 is reserved for the use of the GDH approach for the calculation of the pre-compoundenergy distributions of nucleon and light clusters. A comparison with calculations using the originalALICE and ALICE/ASH codes, on one hand, and experimental data, on the other hand, is given.The advantages of the implementation of the GDH model in the TALYS code are discussed.