6533b874fe1ef96bd12d623b
RESEARCH PRODUCT
Germanium microparticles as optically induced oscillators in optical tweezers
T.a. MouraJakson M. FonsecaJoaquim MendesWinder A. Moura-meloMarcio S. RochaW. H. CamposW. H. CamposO. J. B. J. Marquessubject
Materials scienceLinear polarizationbusiness.industrymedia_common.quotation_subjectPhysics::Opticschemistry.chemical_elementFOS: Physical sciencesGermaniumGaussian laser beamAsymmetryAction (physics)MicrosphereOpticsSemiconductorOptical tweezerschemistrybusinessmedia_commonPhysics - OpticsOptics (physics.optics)description
Oscillatory dynamics is a key tool in optical tweezers applications. It is usually implemented by mechanical interventions that cannot be optically controlled. In this work we show that Germanium semiconductor beads behave as optically induced oscillators when subjected to a highly focused laser beam. Such unusual motion is due to the competition between the usual optical forces [1-3] and the radiometric force related to thermal effects, which pushes the beads from the focal region [4]. We characterize the behavior of the Germanium beads in detail and propose a model accounting for the related forces, in good agreement with the experimental data. The well defined direction of oscillations can be manipulated by the polarization of the light beam. Such kind of system can potentially revolutionize the field of optical manipulation, contributing to the design of single molecule machines and the application of oscillatory forces in macromolecules and other soft matter systems.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2019-11-21 |