Contactless characterization of the elastic properties of glass microspheres
Cita com:
hdl:2117/404959
Document typeArticle
Defense date2023-04-25
PublisherAmerican Institute of Physics (AIP)
Rights accessOpen Access
Except where otherwise noted, content on this work
is licensed under a Creative Commons license
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Attribution 4.0 Spain
ProjectTOWARDS ALL-OPTICAL SENSING AND SIGNAL PROCESSING USING CAVITY AND MOLECULAR OPTOMECHANICS (AEI-PID2021-124618NB-C22)
INGENIERIA DE FONONES PARA LA GESTION TERMICA AVANZADA A LA NANOESCALA Y LA OPTOMECANICA A TEMPERATURA AMBIENTE (MINECO-FIS2015-70862-P)
INGENIERIA DE FONONES PARA LA GESTION TERMICA AVANZADA A LA NANOESCALA Y LA OPTOMECANICA A TEMPERATURA AMBIENTE (MINECO-FIS2015-70862-P)
Abstract
Glass microspheres are of great interest for numerous industrial, biomedical, or standalone applications, but it remains challenging to evaluate their elastic and optical properties in a non-destructive way. In this work, we address this issue by using two complementary contactless tech- niques to obtain elastic and optical constants of glass microspheres with diameters ranging from 10 to 60 µm. The first technique we employ is Brillouin Light Scattering, which yields scattering with longitudinal acoustic phonons, the frequency of which is found to be 5% lower than that measured in the bulk material. The second technique involves exciting the optical whispering gallery modes of the microspheres, which allows us to transduce some of their vibrational modes. The combined data allow for extracting the refractive index and the elastic constants of the material. Our findings indicate that the values of those properties are reduced with respect to their bulk material counterpart due to an effective decrease of the density, resulting from the fabrication process. We propose the use of this combined method to extract elastic and optical parameters of glass materials in microsphere geometries and compare them with the values of the pristine material from which they are formed.
CitationMaire, J. [et al.]. Contactless characterization of the elastic properties of glass microspheres. "APL materials", 25 Abril 2023, vol. 11, núm. 4, article 041128.
ISSN2166-532X
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