Seminario «Thermally Driven Convective Systems: Oscillations via Homodyne Dynamic Light Scattering»

Seminario impartido por José López Molina (Universidad de Granada).

Resumen: We use Homodyne Dynamic Light Scattering (HDLS) with a dual-laser beam setup to investigate the drift velocities of colloidal particles immersed in a solvent exposed to thermally-induced convection. Our investigation reveals the appearance of oscillations of a well-defined frequency in the intensity autocorrelation function, which are linked to the particle drift velocities. In addition to this non-equilibrium oscillations, we report an enhanced decay of the intensity correlation function attributable to the loss of correlation as particles depart from the scattering volume due to prevailing convective flow. A pivotal discovery of our research is the identification of a specific temperature gradient threshold, beyond which pronounced velocity fluctuations ensue as a consequence of the establishment of a non-stationary flow within the measurement cell. The experimental results, obtained for different colloidal systems, are corroborated by a theoretical model and thoroughly validated with fluid dynamics simulations and Brownian dynamics simulations, yielding excellent agreement with the experimental data, and providing a robust and complete explanation of the observed phenomena. This study presents an insight in the field of non-equilibrium particle dynamics, offering a reliable method to study complex behaviors in convective systems through advanced HDLS techniques and multidisciplinary simulations.

• Fecha: Jueves 4 de abril de 2024
• Lugar: Facultad de Ciencias. Aula A22
• Horario: de 12:30 a 13:30
• Organiza: Departamento de Física Aplicada – Grupo de Física de Fluidos y Biocoloides
• Más información: Grupo de Física de Fluidos y Biocoloides