Your search keyword '"Oketani R"' showing total 2 results

1. Measurement of Scattering Nonlinearities from a Single Plasmonic Nanoparticle.

Author

Lee H, Li KY, Huang YT, Shen PT, Deka G, Oketani R, Yonemaru Y, Yamanaka M, Fujita K, and Chu SW

Subjects

Electrons, Light, Nonlinear Dynamics, Optical Imaging methods, Optics and Photonics, Scattering, Radiation, Gold chemistry, Metal Nanoparticles chemistry, Surface Plasmon Resonance methods

Abstract

Plasmonics, which are based on the collective oscillation of electrons due to light excitation, involve strongly enhanced local electric fields and thus have potential applications in nonlinear optics, which requires extraordinary optical intensity. One of the most studied nonlinearities in plasmonics is nonlinear absorption, including saturation and reverse saturation behaviors. Although scattering and absorption in nanoparticles are closely correlated by the Mie theory, there has been no report of nonlinearities in plasmonic scattering until very recently. Last year, not only saturation, but also reverse saturation of scattering in an isolated plasmonic particle was demonstrated for the first time. The results showed that saturable scattering exhibits clear wavelength dependence, which seems to be directly linked to the localized surface plasmon resonance (LSPR). Combined with the intensity-dependent measurements, the results suggest the possibility of a common mechanism underlying the nonlinear behaviors of scattering and absorption. These nonlinearities of scattering from a single gold nanosphere (GNS) are widely applicable, including in super-resolution microscopy and optical switches. In this paper, it is described in detail how to measure nonlinearity of scattering in a single GNP and how to employ the super-resolution technique to enhance the optical imaging resolution based on saturable scattering. This discovery features the first super-resolution microscopy based on nonlinear scattering, which is a novel non-bleaching contrast method that can achieve a resolution as low as l/8 and will potentially be useful in biomedicine and material studies.

Published

2016

2. Measurement of a saturated emission of optical radiation from gold nanoparticles: application to an ultrahigh resolution microscope.

Author

Chu SW, Su TY, Oketani R, Huang YT, Wu HY, Yonemaru Y, Yamanaka M, Lee H, Zhuo GY, Lee MY, Kawata S, and Fujita K

Subjects

Microscopy instrumentation, Nanotechnology instrumentation, Nanotechnology methods, Gold chemistry, Metal Nanoparticles chemistry, Surface Plasmon Resonance instrumentation, Surface Plasmon Resonance methods

Abstract

We show that scattering from a single gold nanoparticle is saturable for the first time. Wavelength-dependent study reveals that the saturation behavior is governed by depletion of surface plasmon resonance, not the thermal effect. We observed interesting flattening of the point spread function of scattering from a single nanoparticle due to saturation. By extracting the saturated part of scattering via temporal modulation, we achieve λ/8 point spread function in far-field imaging with unambiguous separation of adjacent particles.

Published

2014