Interrogating the Ballistic Regime in Liquids with Rotational Optical Tweezers

Abstract

Accessing the ballistic regime of single particles in liquids remains an experimental challenge that shrouds our understanding of the particle-liquid interactions on exceedingly short time scales. We demonstrate the ballistic measurements of rotational probes to observe these interactions in the rotational regime within microscopic systems. This study uses sensitive high-bandwidth measurements of polarisation from light scattered by orientation-locked birefringent probes trapped within rotational optical tweezers. The particle-liquid interactions in the ballistic regime are decoupled from the optical potential allowing direct studies of single-particle rotational dynamics. This enabled us to determine the dissipation of rotational inertia and observe and validate rotational hydrodynamic effects in a previously inaccessible parameter space. Furthermore, the fast angular velocity thermalisation time enables calibration-free viscometry using less than 50ms of data. This methodology will provide a unique way of studying rotational hydrodynamic effects and enable ultra-fast microrheometry in systems out-of-equilibrium.

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