Mapping current paths and temperature in thin film NbO<sub>2</sub> selector devices

B. Regan; Toyanath Joshi; Matthew Mecklenburg; Brian Zutter; Gurleen Bal; Jared Lodico; David Lederman; William Hubbard

Mapping current paths and temperature in thin film NbO₂ selector devices

ORAL

Abstract

A metal-to-insulator transition (MIT) occurs in NbO₂ at high temperature coincident with a subtle change in its crystal structure. Because a similar transition occurs when sufficient electrical current is driven directly through the material, NbO₂ is being considered for use as a selector in crossbar memory arrays. Theoretical studies presently disagree as to whether the bias-induced transition is simply the MIT triggered by Joule heating, or a distinct transition triggered by electric field effects. Using novel scanning transmission electron microscopy (STEM) techniques based on electron beam induced current (EBIC) imaging, we map current paths, potential, and temperature in functioning, thin-film NbO₂ devices. We observe the bias-induced switching process at various stages, including the high-resistance state, the intermediate negative differential resistance regime, and the low-resistance state both with and without thermal runaway.

March 6, 2018, 12:24 PM – March 6, 2018, 12:36 PM

Presenters

B. Regan

Physics, University of California, Los Angeles, Physics , University of California, Los Angeles, University of California, Los Angeles

Authors

B. Regan

Physics, University of California, Los Angeles, Physics , University of California, Los Angeles, University of California, Los Angeles
Toyanath Joshi

Department of Physics, University of California-Santa Cruz, Physics and Astronomy, West Virginia University, University of California, Santa Cruz
Matthew Mecklenburg

CEMMA, Univ of Southern California, Univ of Southern California, University of Southern California, Center for Electron Microscopy and Microanalysis, University of Southern California
Brian Zutter

Physics , University of California, Los Angeles, University of California, Los Angeles
Gurleen Bal

Physics, University of California, Los Angeles, University of California, Los Angeles
Jared Lodico

University of California, Los Angeles, Physics, University of California, Los Angeles
David Lederman

Department of Physics, University of California-Santa Cruz, Physics, UC, Santa Cruz, University of California, Santa Cruz, Physics, University of California Santa Cruz
William Hubbard

Department of Physics & Astronomy, UCLA, Physics, University of California, Los Angeles, University of California, Los Angeles