Advanced Physics Research (Apr 2024)

A Memristive Oscillator

  • Yugo Oshima,
  • Taishi Takenobu,
  • Jiang Pu,
  • Keisuke Ishiguro,
  • Reizo Kato,
  • Hiroshi M. Yamamoto,
  • Tetsuro Kusamoto

DOI
https://doi.org/10.1002/apxr.202300117
Journal volume & issue
Vol. 3, no. 4
pp. n/a – n/a

Abstract

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Abstract Memristors, or more generally “memristive systems,” are nonlinear electric components that change their resistance depending on a set of state variables. Meanwhile, negative differential resistance (NDR) is an uncommon electrical property that occurs in a few nonlinear electric components. Such a nonlinear property is now widely used in amplifiers and oscillators. It finds that one of the bilayer‐type nickel‐dithiolene complexes shows nonlinear transport with the NDR property and self‐oscillates under a bias current by simply adding a capacitor in parallel. Surprisingly, the Lissajous figure of this molecular material shows a “pinched hysteresis loop” typical of a memristor, and an inductive reactance emerges when a bias current or voltage is applied to the sample. Herein, a new type of oscillator that uses the NDR and hidden inductive properties of a memristive system is reported. The findings suggest that a memristive system can mimic other passive elements, such as an inductor, and can oscillate itself without having them in the circuit. The oscillation mechanism is straightforward and applicable to a wide variety of memristive materials, including resistors with large negative temperature coefficients, discharge tubes, and even nerve cells in the living body.

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