HIGH TEMPERATURE MATERIALS AND PROCESSES, vol.32, no.4, pp.383-389, 2013 (SCI-Expanded)
The thermodynamic quantities of the isothermal compressibility, thermal expansion and the specific heat are calculated here as a function of pressure by using the observed Raman frequencies of the lattice modes and vibrons in the. phase of solid nitrogen. The Pippard relations and their spectroscopic modifications are constructed, and the slope dP/dT is deduced from the Raman frequency shifts in this phase of N-2. It is shown that the thermodynamic quantities can be predicted from the Raman frequency shifts, in particular, in the eta phase of solid nitrogen.