Dalgic, SSSengul, SKalayci, S2024-06-122024-06-1220051454-41641841-7132https://hdl.handle.net/20.500.14551/194312nd International Workshop on Amorphous and Nanostructured Chalcogenides -- JUN 20-24, 2005 -- Sinaia, ROMANIAThe structure of molten cadmium telluride have been calculated using the integral equation theories with the effective pair potentials based on the analytic modified embedded atom method (AMEAM). The pair interactions are described with the semi-empirical potential functions recently proposed Hu and co-workers. All the potential parameters for pure components are determined by fitting both liquid and solid state properties. The structural properties of liquid Cd-Te equiatomic alloy have been obtained using the Variational Modified Hypernetted Chain liquid state theory. The results of partial pair distribution functions are compared with the neutron diffraction data and those obtained by Stillinger-Weber semi-empirical potential.eninfo:eu-repo/semantics/closedAccessCadmium TellurideLiquid StructureAnalytic Modified Embedded Atom MethodStillinger-Weber PotentialEmbedded-Atom-MethodRare-Earth-MetalsHcp MetalsThermodynamic PropertiesMolecular-DynamicsTransition-MetalsMethod ModelComputer-SimulationDefect PropertiesAlkali-MetalsConference Object7420012011Q2WOS:0002314065000412-s2.0-24644473718Q4