Optical lever for broadband detection of fluid interface fluctuations

We exploit the optical lever principle to detect minute fluctuations of a liquid-air interface. Waves propagating on the interface deflect a specularly reflected laser beam, inducing angular deviations captured by a dual-element photodiode. We realise this principle in a compact set-up including a temperature-controlled fluid sample. Deflection angle fluctuations span five orders of magnitude in frequency, enabling detection of both low-frequency eigenmodes and high-frequency capillary waves driven by thermal effects. These results demonstrate the broad dynamical range and versatility of specular reflection spectroscopy as a minimally-invasive tool for probing interfacial dynamics in fluid and soft matter systems.