Yong Sun

University of Pennsylvania, Filadelfia, Pennsylvania, United States

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Publications (2)36.5 Total impact

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    ABSTRACT: The integration of radiofrequency electronic methodologies on micro- as well as nanoscale platforms is crucial for information processing and data-storage technologies. In electronics, radiofrequency signals are controlled and manipulated by 'lumped' circuit elements, such as resistors, inductors and capacitors. In earlier work, we theoretically proposed that optical nanostructures, when properly designed and judiciously arranged, could behave as nanoscale lumped circuit elements--but at optical frequencies. Here, for the first time we experimentally demonstrate a two-dimensional optical nanocircuit at mid-infrared wavelengths. With the guidance of circuit theory, we design and fabricate arrays of Si3N4 nanorods with specific deep subwavelength cross-sections, quantitatively evaluate their equivalent impedance as lumped circuit elements in the mid-infrared regime, and by Fourier transform infrared spectroscopy show that these nanostructures can indeed function as two-dimensional optical lumped circuit elements. We further show that the connections among nanocircuit elements, in particular whether they are in series or in parallel combination, can be controlled by the polarization of impinging optical signals, realizing the notion of 'stereo-circuitry' in metatronics-metamaterials-inspired optical circuitry.
    Full-text · Article · Jan 2012 · Nature Materials
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    ABSTRACT: Using FTIR spectrometry, we experimentally verify that arrays of Si3N4nanorods with deep subwavelength cross sections may operate as two-dimensional optical lumped circuit elements connected in series or parallel depending on polarization of incident field.
    No preview · Article · Oct 2010

Publication Stats

52 Citations
36.50 Total Impact Points

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  • 2012
    • University of Pennsylvania
      • Department of Electrical and Systems Engineering
      Filadelfia, Pennsylvania, United States