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Optimization of the readout of microdrum optomechanical resonators

AuthorsPini, Valerio ; Ramos Vega, Daniel ; Domínguez, Carmen M.; Ruz Martínez, José Jaime ; Malvar, Óscar ; Kosaka, Priscila M. ; Davis, Zachary James; Tamayo de Miguel, Francisco Javier ; Calleja, Montserrat
Optical cavities
Issue DateNov-2017
CitationMicroelectronic Engineering 183–184(5): 37-41 (2017)
AbstractFree-standing dielectric structures with a substrate underneath, as the SiN microdrums studied here, are the basis of optomechanical devices. Optimization of the optomechanical coupling is demanding in order to enhance the performance of these devices. The optomechanical coupling in the case of drum resonators critically depends on the thickness of the drum, the surface stress, the cavity length and the wavelength. Here, we develop a methodology that combines spatially multiplexed microspectrophotometry, optical modelling of the cavity and finite element method simulation of the mechanical eigenmodes that enables obtaining the properties of the optomechanical cavity and predicting the wavelength that optimizes the optomechanical coupling. By choosing this illumination wavelength we are able to spatially resolve the thermal motion of the microdrums up to the fourth mechanical mode ~ 20 MHz. The presented study opens the door for further optimization pathways for optomechanical detection and actuation.
Publisher version (URL)https://doi.org/10.1016/j.mee.2017.10.008
Appears in Collections:(IMN-CNM) Artículos
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