Active Control of Surface Plasmonics with Ferroelectricity

ORAL

Abstract

Surface plasmons occur when the conduction electrons at a metal/dielectric interface resonantly interact with external electromagnetic fields, which has been limited to static (passive) structures. However, the most exciting applications of plasmonic phenomena occur in the visible spectral range with active control of the plasmonic response. In this work, we studied the fundamental mechanisms leading to active control of the plasmonic response in the visible range using ferroelectric materials. The great tunability of polarity and dielectric constant at the interface between LuFe2O4 and Au particles offers effective control of surface plasmonics,which could be easily monitored Surface Enhanced Raman Scattering.

*Supported in part by the Division of Materials Science and Engineering, U. S. DOE.

Authors

  • Lifeng Yin

    • Oak Ridge National Laboratory
    • Oak Ridge National Lab

  • Xiaoying Xu

    • Oak Ridge National Laboratory
    • Oak Ridge National Lab

  • Nahla A. Abu-Hatab

    • Oak Ridge National Lab

  • Maria Claudia Troparevsky

    • University of Tennessee
    • The Univ. Tennessee;Oak Ridge National Lab

  • Quanshi Li

    • The Univ. Tennessee

  • Katyayani Seal

    • University of Tennessee
    • The Univ. Tennessee; Oak Ridge National Lab

  • Zhili Zhang

    • The Univ. Tennessee

  • Baohua Gu

    • Oak Ridge National Lab

  • Zhenyu Zhang

    • Oak Ridge National Laboratory, U of Tennessee-Knoxville
    • Oak Ridge National Laboratory
    • Oak Ridge National Laboratory \& The Univeristy of Tennessee
    • Oak Ridge National Laboratory \& University of Tennessee
    • Oak Ridge National Laboratory, University of Tennessee-Knoxville
    • Oak Ridge National Laboratory and University of Tennessee
    • The Univ. Tennessee;Oak Ridge National Lab

  • Jian Shen

    • Oak Ridge National Laboratory
    • The Univ. Tennessee;Oak Ridge National Lab