Starting from experimental results and first-principle simulations we have developed a transport model for amorphous chalcogenides based upon a hopping process among traps. The conduction mechanism is suitably modeled by means of a generalization of the variable-range hopping, and studied stochastically through Monte Carlo simulations. The transition rates available in the literature have been modified by incorporating the effects of the local electric field. The improved model is able to reproduce the S-shaped current-voltage characteristics of these materials. Simulations have shown that the snap-back effect in the J(V) curve can be ascribed to the formation of domains of opposite charges within the material close to the contact region, a...
Charge transport in amorphous chalcogenide-GST used for memory devices is modeled using two contribu...
Charge transport in amorphous chalcogenide-GST used for memory devices is modeled using two contribu...
A microscopic particle description of the charge transport process in amorphous GST (a-GST) is prese...
The I(V ) characteristics of amorphous GST devices show a peculiar S-shape behavior, that is a swift...
Chalcogenide GST materials can suitably be exploited for manufacturing phase-change memory devices. ...
Chalcogenide GST materials can suitably beexploited for manufacturing phase-change memory devices.In...
Chalcogenide compounds (GST) are extensively being investigated as active materials in phase-change ...
Charge transport in amorphous chalcogenide-GST used for memory devices is modeled by means of two co...
Charge transport in amorphous chalcogenide-GST used for memory devices is modeled by means of two co...
The low-field electric conduction in amorphous chalcogenides is here investigated by means of a Mont...
Charge transport in amorphous chalcogenide-GST used for memory devices is modeled using two contribu...
Charge transport in amorphous chalcogenide-GST used for memory devices is modeled using two contribu...
A microscopic particle description of the charge transport process in amorphous GST (a-GST) is prese...
The I(V ) characteristics of amorphous GST devices show a peculiar S-shape behavior, that is a swift...
Chalcogenide GST materials can suitably be exploited for manufacturing phase-change memory devices. ...
Chalcogenide GST materials can suitably beexploited for manufacturing phase-change memory devices.In...
Chalcogenide compounds (GST) are extensively being investigated as active materials in phase-change ...
Charge transport in amorphous chalcogenide-GST used for memory devices is modeled by means of two co...
Charge transport in amorphous chalcogenide-GST used for memory devices is modeled by means of two co...
The low-field electric conduction in amorphous chalcogenides is here investigated by means of a Mont...
Charge transport in amorphous chalcogenide-GST used for memory devices is modeled using two contribu...
Charge transport in amorphous chalcogenide-GST used for memory devices is modeled using two contribu...
A microscopic particle description of the charge transport process in amorphous GST (a-GST) is prese...