11,309 research outputs found
Measurement of anharmonicity of phonons in negative thermal expansion compound Zn(CN)2 by high pressure inelastic neutron scattering
Zn(CN)2 is known to have an isotropic negative thermal expansion (NTE)
coefficient (about -51 x 10-6 K-1) over 10-370 K that is twice as large as that
of ZrW2O8. We have measured the pressure dependence of the phonon spectra up to
30 meV from a polycrystalline sample of Zn(CN)2 at pressures of 0, 0.3, 1.9 and
2.8 kbar at temperatures of 165 and 225 K. The measurements enabled us to
estimate the energy dependence of the ratios Gamma/B (Gamma are Gruneisen
parameters as a function of phonon energy Ei at ambient pressure and B is the
bulk modulus), which reflect the anharmonicity of phonons. We conclude that the
phonon modes of low energy below 15 meV play an important role in the
understanding of the NTE behavior in Zn(CN)2 and the measured anharmonicity can
quantitatively explain the NTE.Comment: 5 pages, 4 figure
Relationship between thermodynamics and dynamics of supercooled liquids
Diffusivity, a measure for how rapidly a fluid self-mixes, shows an intimate,
but seemingly fragmented, connection to thermodynamics. On one hand, the
"configurational" contribution to entropy (related to the number of
mechanically-stable configurations that fluid molecules can adopt) has long
been considered key for predicting supercooled liquid dynamics near the glass
transition. On the other hand, the excess entropy (relative to ideal gas)
provides a robust scaling for the diffusivity of fluids above the freezing
point. Here we provide, to our knowledge, the first evidence that excess
entropy also captures how supercooling a fluid modifies its diffusivity,
suggesting that dynamics, from ideal gas to glass, is related to a single,
standard thermodynamic quantity.Comment: to appear in Journal of Chemical Physic
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