Publication
Reference
Bini Roberto, Jodl Hans Jörg, Califano Salvatore (1992). Relaxation processes of the infrared-active lattice phonons of crystalline CO$_2. Phys. Rev. B, 45, 5244 - 5250.
Names
  • Roberto Bini
  • Hans Jörg Jodl
  • Salvatore Califano
Article and keywords
Title
Relaxation processes of the infrared-active lattice phonons of crystalline CO$_2
Abstract
The bandwidths of the two infrared-active lattice phonons T$^-$$_u$ at 68 cm$^-1$ and T$^+$$_u$ at 117 cm$^-1$ of crystalline CO$_2$ have been measured by Fourier-transform infrared spectroscopy as a function of temperature in the range 12-100 K. Single crystals of different thickness, from 25 to 100 μm, were grown in a low-temperature cell. The techniques for growing single crystals of suitable thickness and for handling the experimental data are presented in detail. The correction of the interferograms for the presence of interference fringes, due to multiple reflections on the cell windows, and the determination of the baseline are discussed. It is shown that Lorentzian functions fit the band profiles perfectly throughout the examined temperature range. The evolution with temperature of both bandwidths is clearly nonlinear and parallels that of the three Raman-active lattice phonons. As predicted by lattice-dynamical calculations, the width of the low-frequency T$^-$$_u$ phonon is more than one order of magnitude smaller than that of the higher-frequency T$^+$$_u$ phonon. The interpretation of the experimental data is made in terms of elementary relaxation processes involving third- and fourth-order phonon-phonon coupling mechanisms. For completeness the interpretation is extended also to the Raman-active phonons. Calculations made at the lowest order (λ$^2$), using the whole two-phonon density of states and a single average phonon-phonon coupling coefficient, show that the largest contribution to the bandwidth arises in all cases from three-phonon decay processes. At the higher order (λ$^4$) it is shown that the dominant process, responsible for the nonlinear temperature dependence, can be well described by a diagram with four cubic coupling terms. The contribution of this diagram is proportional to the square of a phonon occupation number. The temperature dependence of the frequency of the five optical lattice phonons is also presented.
Keywords
spectroscopy, transmission spectra, Raman, far-IR, band position, band width, band vibration mode, ices, molecular solids, crystalline, CO2
Content
spectral data, band list data, experimental physics
Year
1992
Journal
Physical Review B
Volume
45
Number
10
Pages
5244 - 5250
Document type
article
Publication state
published
Doi
10.1103/PhysRevB.45.5244
Identifiers