Litcius/Paper detail

Heterodyne dynamic light scattering for the characterization of particle dispersions

Wenchang Wu, Matthias Knoll, Cédric Giraudet, Michael H. Rausch, Andreas P. Fröba

2023Applied Optics13 citationsDOI

Abstract

Particle self-diffusivities in unimodal and bimodal aqueous dispersions are characterized by dynamic light scattering (DLS) applying a heterodyne detection scheme. For unimodal dispersions close to infinite dilution, it could be evidenced that pure homodyne conditions cannot be realized, leading to an increasing underestimation of diffusivity with a decreasing concentration. Even for bimodal dispersions and neglecting any local oscillator field, the coherent superposition of scattered light from different particle species hinders a clear assignment of the measured signals and their evaluation for diffusivity. In this case, the impact of a cross term on the determined diffusivities cannot be neglected. The results emphasize that the use of a heterodyne detection scheme in DLS experiments is a key aspect for an accurate determination of particle diffusivities in low-concentrated unimodal and bimodal dispersions.

Topics & Concepts

Dynamic light scatteringOpticsLight scatteringSuperposition principleThermal diffusivityScatteringParticle (ecology)Heterodyne (poetry)Materials scienceHeterodyne detectionPhysicsNanotechnologyNanoparticleLaserQuantum mechanicsGeologyAcousticsOceanographySpectroscopy and Quantum Chemical StudiesAir Quality and Health ImpactsIndoor Air Quality and Microbial Exposure
Heterodyne dynamic light scattering for the characterization of particle dispersions | Litcius