DYNAMICAL STUDY OF GRAPHITE AND GRAPHITE-INTERCALATION COMPOUNDS

We propose a very simple model of lattice dynamics of graphite and its intercalation compounds (GIC's): our model only uses five force const ants for graphite, and seven for the GIC. It is used to calculate the dynamical matrix of the structure, and to obtain by matrix diagonaliza tion the phonon vibration frequencies for each element of the first Br illouin zone. Making use of available experimental results concerning graphite as well as LiC6, we may approximate the parameters introduced in the model. Finally, with the results so obtained, we calculate a g reat number of physical properties of these compounds: specific heat, Debye temperature theta(D), bidimensional or tridimensional character, as well as elastic constants.