Hugo Bender scite author profile

The basic unit of information in filamentary-based resistive switching memories is physically stored in a conductive filament. Therefore, the overall performance of the device is indissolubly related to the properties of such filament. In this Letter, we report for the first time on the three-dimensional (3D) observation of the shape of the conductive filament. The observation of the filament is done in a nanoscale conductive-bridging device, which is programmed under real operative conditions. To obtain the 3D-information we developed a dedicated tomography technique based on conductive atomic force microscopy. The shape and size of the conductive filament are obtained in three-dimensions with nanometric resolution. The observed filament presents a conical shape with the narrow part close to the inert-electrode. On the basis of this shape, we conclude that the dynamic filament-growth is limited by the cation transport. In addition, we demonstrate the role of the programming current, which clearly influences the physical-volume of the induced conductive filaments.

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Undoped and in-situ B doped GeSn epitaxial growth on Ge by atmospheric pressure-chemical vapor deposition

Vincent

et al. 2011

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Nanometer-scale magnetic MnAs particles in GaAs grown by molecular beam epitaxy

et al. 1996

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Spherical MnAs ferromagnetic particles with controllable diameters (5–30 nm) are embedded in a high quality GaAs matrix. The particles are formed in a two step process consisting of the epitaxy of a homogeneous Ga1−xMnxAs layer at low temperatures using molecular beam epitaxy followed by phase separation upon annealing. During the annealing step, the excess arsenic in the as-grown film forms magnetic MnAs precipitates with the Mn from the Ga1−xMnxAs lattice. Structural and room-temperature magnetic properties of the heterogeneous GaAs:MnAs films are described. The magnetic MnAs rich layers can be incorporated into semiconductor heterostructures as demonstrated by growing (GaAs/AlAs) multiple quantum well structures in combination with GaAs:MnAs layers.

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High-k dielectrics for future generation memory devices (Invited Paper)

Kittl

Opsomer

Popovici

et al. 2009

Microelectronic Engineering

235

139

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Hugo Bender

10×10nm<sup>2</sup> Hf/HfO<inf>x</inf> crossbar resistive RAM with excellent performance, reliability and low-energy operation

Three-Dimensional Observation of the Conductive Filament in Nanoscaled Resistive Memory Devices

Undoped and in-situ B doped GeSn epitaxial growth on Ge by atmospheric pressure-chemical vapor deposition

Nanometer-scale magnetic MnAs particles in GaAs grown by molecular beam epitaxy

High-k dielectrics for future generation memory devices (Invited Paper)

Contact Info

Product

Resources

About

Hugo Bender

10&#x00D7;10nm<sup>2</sup> Hf/HfO<inf>x</inf> crossbar resistive RAM with excellent performance, reliability and low-energy operation

Three-Dimensional Observation of the Conductive Filament in Nanoscaled Resistive Memory Devices

Undoped and in-situ B doped GeSn epitaxial growth on Ge by atmospheric pressure-chemical vapor deposition

Nanometer-scale magnetic MnAs particles in GaAs grown by molecular beam epitaxy

High-k dielectrics for future generation memory devices (Invited Paper)

Contact Info

Product

Resources

About

10×10nm<sup>2</sup> Hf/HfO<inf>x</inf> crossbar resistive RAM with excellent performance, reliability and low-energy operation