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Reconfigurable hyperbolic polaritonics with correlated oxide metasurfaces

Author

Listed:
  • Neda Alsadat Aghamiri

    (University of Georgia)

  • Guangwei Hu

    (City University of New York
    National University of Singapore)

  • Alireza Fali

    (University of Georgia)

  • Zhen Zhang

    (Purdue University)

  • Jiahan Li

    (Kansas State University)

  • Sivacarendran Balendhran

    (University of Melbourne)

  • Sumeet Walia

    (School of Engineering RMIT University Melbourne
    Functional Materials and Microsystems Research Group and the Micro Nano Research Facility RMIT University)

  • Sharath Sriram

    (Functional Materials and Microsystems Research Group and the Micro Nano Research Facility RMIT University
    RMIT University)

  • James H. Edgar

    (Kansas State University)

  • Shriram Ramanathan

    (Purdue University)

  • Andrea Alù

    (City University of New York
    City University of New York)

  • Yohannes Abate

    (University of Georgia)

Abstract

Polaritons enable subwavelength confinement and highly anisotropic flows of light over a wide spectral range, holding the promise for applications in modern nanophotonic and optoelectronic devices. However, to fully realize their practical application potential, facile methods enabling nanoscale active control of polaritons are needed. Here, we introduce a hybrid polaritonic-oxide heterostructure platform consisting of van der Waals crystals, such as hexagonal boron nitride (hBN) or alpha-phase molybdenum trioxide (α-MoO3), transferred on nanoscale oxygen vacancy patterns on the surface of prototypical correlated perovskite oxide, samarium nickel oxide, SmNiO3 (SNO). Using a combination of scanning probe microscopy and infrared nanoimaging techniques, we demonstrate nanoscale reconfigurability of complex hyperbolic phonon polaritons patterned at the nanoscale with high resolution. Hydrogenation and temperature modulation allow spatially localized conductivity modulation of SNO nanoscale patterns, enabling robust real-time modulation and nanoscale reconfiguration of hyperbolic polaritons. Our work paves the way towards nanoscale programmable metasurface engineering for reconfigurable nanophotonic applications.

Suggested Citation

  • Neda Alsadat Aghamiri & Guangwei Hu & Alireza Fali & Zhen Zhang & Jiahan Li & Sivacarendran Balendhran & Sumeet Walia & Sharath Sriram & James H. Edgar & Shriram Ramanathan & Andrea Alù & Yohannes Aba, 2022. "Reconfigurable hyperbolic polaritonics with correlated oxide metasurfaces," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
  • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-32287-z
    DOI: 10.1038/s41467-022-32287-z
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