6533b86cfe1ef96bd12c81e1

RESEARCH PRODUCT

Microscopic dynamics of molecular liquids and glasses: Role of orientations and translation-rotation coupling

subject

description

We investigate the dynamics of a fluid of dipolar hard spheres in its liquid and glassy phase, with emphasis on the microscopic time or frequency regime. This system shows rather different glass transition scenarios related to its rich equilibrium behavior which ranges from a simple hard sphere fluid to a long range ferroelectric orientational order. In the liquid phase close to the ideal glass transition line and in the glassy regime a medium range orientational order occurs leading to a softening of an orientational mode. To investigate the role of this mode we use the molecular mode-coupling equations to calculate the spectra $\phi_{lm}^{\prime \prime}(q,\omega)$ and $\chi _{lm}''(q,\omega)$. In the center of mass spectra $ \phi_{00}''(q,\omega)$ and $\chi_{00}''(q,\omega)$ we found besides a high frequency peak at $\omega _{hf}$ a peak at $\omega_{op}$, about one decade below $\omega_{hf}$. $\omega _{op}$ has almost no $q$-dependence and exhibits an ``isotope'' effect $\omega _{op}\propto I^{-1/2}$, with $I$ the moment of inertia. We give evidence that the existence of this peak is related to the occurrence of the medium ranged orientational order. It is shown that some of these feature also exist for schematic mode coupling models.