Integration of van der Waals Heterostructures with Programmable Ferroelectric Thin Films

ORAL

Abstract

We present the ability to modulate the electronic properties of van der Waals heterostructures with high resolution ferroelectric programming as a novel pathway to the realization of a solid-state 2D quantum simulator. Using a precision ultra-low voltage electron beam lithography technique to switch the polarization of ferroelectric Al1-xBxN ferroelectricity at the nanoscale, sub-micron ferroelectric domains are patterned on Al1-xBxN thin films. We demonstrate this programmability by the induced ferroelectric field effect on a graphene/AlBN device, where the manipulation of ferroelectric polarization is used to create a p-n junction in the graphene layer. We discuss some of the complications in fabrication of high-quality devices that integrate 2D heterostructures with ferroelectric thin film substrates.

* Funding acknowledgement: BH, JL, PI, and J-PM acknowledge support from the Department of Energy under grant DOE-QIS (DE‐SC0022277).

Presenters

  • Erin Akyuz

    Carnegie Mellon University

Authors

  • Erin Akyuz

    Carnegie Mellon University

  • Dengyu Yang

    Carnegie Mellon University

  • Qingrui Cao

    Carnegie Mellon University

  • Ranjani Ramachandran

    University of Pittsburgh

  • Muqing Yu

    University of Pittsburgh

  • John Hayden

    The Pennsylvania State University

  • Josh Nordlander

    The Pennsylvania State University

  • Patrick Irvin

    University of Pittsburgh, Department of Physics and Astronomy, University of Pittsburgh, Pittsburgh, PA 15260, USA

  • Jon-Paul Maria

    The Pennsylvania State University, Pennsylvania State University

  • Jeremy Levy

    University of Pittsburgh, Department of Physics and Astronomy, University of Pittsburgh, Pittsburgh, PA 15260, USA

  • Benjamin M Hunt

    Carnegie Mellon University