Translational Dynamics of Rod-like Particles in Supercooled Liquids: Probing Dynamic Heterogeneity and Amorphous Order

Abstract: The use of probe molecules to extract the local dynamical and structural properties of complex dynamical systems is an age-old technique both in simulations and experiments. A lot of important information which is not immediately accessible from the bulk measurements can be accessed via these local measurements. Still, a detailed understanding of how a probe particle's dynamics are affected by the surrounding liquid medium is not very well understood, especially in the supercooled temperature regime. This work shows how translational dynamics of a rod-like particle immersed in a supercooled liquid can give us information on the growth of the correlation length scale associated with dynamical heterogeneity and the multi-body static correlations in the medium. A unified scaling theory rationalizes all the observed results leading to the development of a novel yet simple method that is accessible in experiments to measure the growth of these important length-scales in molecular glass-forming liquids.