posted on 2023-06-07, 22:12authored byF Fernandez-Alonso, F J Bermejo, S E McLain, John TurnerJohn Turner, J J Molaison, K W Herwig
Quasielastic neutron scattering has been used to investigate the single-particle dynamics of hydrogen fluoride across its entire liquid range at ambient pressure. For T>230¿¿K, translational diffusion obeys the celebrated Stokes-Einstein relation, in agreement with nuclear magnetic resonance studies. At lower temperatures, we find significant deviations from the above behavior in the form of a power law with exponent ¿=-0.71±0.05. More striking than the above is a complete breakdown of the Debye-Stokes-Einstein relation for rotational diffusion. Our findings provide the first experimental verification of fractional Stokes-Einstein behavior in a hydrogen-bonded liquid, in agreement with recent computer simulations
This paper details the first observation of deviation from Stokes-Einstein behaviour in a hydrogen bonded liquid, using quasielastic neutron scattering. International collaboration between JFCT and FJB. JFCT directed the experimental work.