Dynamic structure factor of density fluctuations from direct imaging very near (both above and below) the critical point of SF6
BEYSENS, Daniel
ESEME : Équipe du Supercritique pour l'Environnement, les Matériaux et l'Espace : Équipe commune CEA-CNRS (2000-2014)
Physique et mécanique des milieux hétérogènes [PMMH]
Service des Basses Températures [SBT ]
< Leer menos
ESEME : Équipe du Supercritique pour l'Environnement, les Matériaux et l'Espace : Équipe commune CEA-CNRS (2000-2014)
Physique et mécanique des milieux hétérogènes [PMMH]
Service des Basses Températures [SBT ]
Idioma
en
Article de revue
Este ítem está publicado en
Physical Review E : Statistical, Nonlinear, and Soft Matter Physics. 2012, vol. 86, n° 6, p. 061501 (7 p.)
American Physical Society
Resumen en inglés
Large density fluctuations were observed by illuminating a cylindrical cell filled with sulfur hexafluoride (SF6), very near its liquid-gas critical point (|T−Tc|<300 μK) and recorded using a microscope with 3 μm spatial ...Leer más >
Large density fluctuations were observed by illuminating a cylindrical cell filled with sulfur hexafluoride (SF6), very near its liquid-gas critical point (|T−Tc|<300 μK) and recorded using a microscope with 3 μm spatial resolution. Using a dynamic structure factor algorithm, we determined from the recorded images the structure factor (SF), which measures the spatial distribution of fluctuations at different moments, and the correlation time of fluctuations. This method authorizes local measurements in contrast to the classical scattering techniques that average fluctuations over the illuminating beam. We found that during the very early stages of phase separation the SF scales with the wave vector q according to the Lorentzian q−2, which shows that the liquid and vapor domains are just emerging. The critical wave number, which is related to the characteristic length of fluctuations, steadily decreases over time, supporting a sustained increase in the spatial scale of the fluctuating domains. The scaled evolution of the critical wave number obeys the universal evolution for the interconnected domains at high volume fraction with an apparent power law exponent of −0.35 ± 0.02. We also determined the correlation time of the fluctuations and inferred values for thermal diffusivity coefficient very near the critical point, above and below. The values were used to pinpoint the crossing of Tc within 13 μK.< Leer menos
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