Mechanical resonators based on monolayer molybdenum disulfide, a two-dimensional semiconductor, offer the possibility of harnessing light-matter interaction to develop sensitive detection schemes. These schemes consist in measuring fluctuations in the mechanical response of the resonator, such as fluctuations of its displacement spectrum, induced by minute changes in its environment. The accuracy of detecting such changes depends on how accurately the temperature of vibrations is known. However, using light to measure the mechanical response modifies vibrational temperature, making this detection challenging. We propose two complementary detection schemes that may enable us to measure the response of the resonator optically with optimal accuracy. The first scheme is based on minimizing the absorbance of the monolayer while ensuring that the reflectance of the resonator strongly varies with displacement. This scheme minimizes absorptive heating of the monolayer and optomechanical…

Published in: "2DMaterials".