Dynamics of the Graphite Lattice

Abstract

The distribution of frequencies of normal vibrations in the graphite lattice has been obtained in closed form for low temperatures in the two‐dimensional approximation for the values (α, β, 0) and (α, β, α/2) of the force constants (α, β, γ) for nearest, second‐nearest, and third‐nearest neighbors. The frequencies run from 0 to a finite value ω_max, with two logarithmic peaks in their density. The specific heat has been calculated for two special sets of force constant ratios. Deviations from T² dependence set in at temperatures much lower than predicted by Debye theory. Comparison with experiment leads to a numerical value for θ=ℏω_max/k, from which ω_max, and therefore also α and one of the macroscopic elastic constants, c₄₄, may be calculated. θ and ω_max appear very sensitive to the assumed force constant ratios, c₄₄ less so.