Enhancement from plasmonic-molecular coupling for mass transduction (2307.03611v1)

Abstract: The plasmon-mechanical resonators are frequently used in the development of sensors. Active frameworks impose mechanical motion into the lasing dynamics through the use of an optical gain and achieve better sensitivity. Here plasmon-mechanical coupling is demonstrated in a multilayer when a surface plasmon polariton/Fabry-P\'erot hybrid mode is excited in a Kretschmann configuration, while it is observed that the strong plasmonic dispersion allows the deformation of the mechanical domain at several frequencies. After a dye is adsorbed on the surface of the cavity, the layout of the optomechanics is schematized by a spring-mass oscillator mounted onto the surface of the cavity-end mirror. The system is defined by its capability to determine the experimental settings with the best resolution before a controlled experiment in which the oscillator senses a mass. The advantages and disadvantages of the procedure are presented once the data have been assessed and modeled.