Publications by authors named "Amir Hassanfiroozi"
Article Synopsis
- * This study focuses on an asymmetric H-shaped metasurface designed to produce hybrid anapole effects, which leads to different reflection responses based on circular polarization.
- * The research demonstrates strong polarization control through Stokes parameter analysis, offering insights for developing advanced optical applications and improving chiral nanophotonics.
Elliptically polarized light waves carry the spin angular momentum (SAM), so they can exert optical torques on nanoparticles. Usually, the rotation follows the same direction as the SAM due to momentum conservation. It is counterintuitive to observe the reversal of optical torque acting on an ordinary dielectric nanoparticle illuminated by an elliptically or circularly polarized light wave.
View Article and Find Full Text PDFCircularly polarized light carries spin angular momentum, so it can exert an optical torque on the polarization-anisotropic particle by the spin momentum transfer. Here, we show that giant positive and negative optical torques on Mie-resonant (gain) particles arise from the emergence of superhybrid modes with magnetic multipoles and electric toroidal moments, excited by linearly polarized beams. Anomalous positive and negative torques on particles (doped with judicious amount of dye molecules) are over 800 and 200 times larger than the ordinary lossy counterparts, respectively.
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- Mie resonances in dielectric metasurfaces are gaining attention for their unique properties like low optical loss and effective integration with light emitters.
- The study explores how altering the size of metasurface arrays can control photoluminescence (PL) through collective Mie resonances, impacting interactions between unit elements.
- Results show that by using different chip sizes, a significant PL enhancement (~10 times) can be achieved in a specific area of a TiO metasurface, providing new ways to manipulate light-matter interactions at the nanoscale.
In this paper, we demonstrate a multi-functional liquid-crystal lens (MFLC-lens) based on dual-layer electrode design. Compared with the previous 3D endoscopes, which use double fixed lens capturing, the proposed LC lens is not only switchable between 2D and 3D modes, but also is able to adjust focus in both modes. The diameter of the MFLC-lens is only 1.
View Article and Find Full Text PDFA liquid crystal lens array with a hexagonal arrangement is investigated experimentally. The uniqueness of this study exists in the fact that using convex-ring electrode provides a smooth and controllable applied potential profile across the aperture to manage the phase profile. We observed considerable differences between flat electrode and convex-ring electrode; in particular the lens focal length is variable in a wider range from 2.
View Article and Find Full Text PDFPhase-encoded nanostructures such as quick response (QR) codes made of metallic nanoparticles are suggested to be used in security and authentication applications. We present a polarimetric optical method able to authenticate random phase-encoded QR codes. The system is illuminated using polarized light, and the QR code is encoded using a phase-only random mask.
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