Your search keyword '"Coline Adda"' showing total 3 results

1. Direct Observation of the Electrically Triggered Insulator-Metal Transition in V_{3}O_{5} Far below the Transition Temperature

Author

Coline Adda, Min-Han Lee, Yoav Kalcheim, Pavel Salev, Rodolfo Rocco, Nicolas M. Vargas, Nareg Ghazikhanian, Chung-Pang Li, Grant Albright, Marcelo Rozenberg, and Ivan K. Schuller

Subjects

Physics, QC1-999

Abstract

Resistive switching is of the key phenomena for applications such as nonvolatile memories or neuromorphic computing. V_{3}O_{5}, a compound of the vanadium oxide Magnéli series, is one of the rare materials to exhibit an insulator-metal transition above room temperature (T_{c}∼415 K). The switching mechanisms in this material are still not clear. Here, we demonstrate both static dc volatile resistive switching and fast oscillatory spiking regimes in V_{3}O_{5} devices at room temperature (120 K below the phase transition temperature) by applying an electric field. We couple electrical measurements, operando optical imaging, and infrared measurements to track the reflectivity change and the temperature of a device during the resistive switching. We find that the resistive switching starts via thermal runaway deep in the insulating state and triggers the phase transition with the formation of a filament of the high-temperature phase. Furthermore, we capture optically and thermally the spiking oscillations that we link to the negative differential resistance regime and find the filament forms and dissolves via a periodic spatiotemporal instability that we describe by numerical simulations. Our studies play an important role in understanding the volatile resistive switching mechanisms and demonstrate that V_{3}O_{5} can be a key vanadium oxide for neuromorphic computing.

Published

2022

2. Inherent stochasticity during insulator-metal transition in VO

Author

Shaobo, Cheng, Min-Han, Lee, Richard, Tran, Yin, Shi, Xing, Li, Henry, Navarro, Coline, Adda, Qingping, Meng, Long-Qing, Chen, R C, Dynes, Shyue Ping, Ong, Ivan K, Schuller, and Yimei, Zhu

Subjects

Physical Sciences

Abstract

Vanadium dioxide (VO(2)), which exhibits a near-room-temperature insulator–metal transition, has great potential in applications of neuromorphic computing devices. Although its volatile switching property, which could emulate neuron spiking, has been studied widely, nanoscale studies of the structural stochasticity across the phase transition are still lacking. In this study, using in situ transmission electron microscopy and ex situ resistive switching measurement, we successfully characterized the structural phase transition between monoclinic and rutile VO(2) at local areas in planar VO(2)/TiO(2) device configuration under external biasing. After each resistive switching, different VO(2) monoclinic crystal orientations are observed, forming different equilibrium states. We have evaluated a statistical cycle-to-cycle variation, demonstrated a stochastic nature of the volatile resistive switching, and presented an approach to study in-plane structural anisotropy. Our microscopic studies move a big step forward toward understanding the volatile switching mechanisms and the related applications of VO(2) as the key material of neuromorphic computing.

Published

2021

3. Structural Manipulation of Phase Transitions by Self‐Induced Strain in Geometrically Confined Thin Films

Author

Ivan K. Schuller, Pavel Salev, Min-Han Lee, Coline Adda, Yoav Kalcheim, Javier del Valle, Nicolás Vargas, and Nareg Ghazikhanian

Subjects

Biomaterials, Phase transition, Materials science, Strain engineering, Condensed matter physics, Strain (chemistry), Mott insulator, Electrochemistry, Thin film, Metal–insulator transition, Condensed Matter Physics, Vanadium oxide, Electronic, Optical and Magnetic Materials

Published

2020