Chalcogenide materials have received great attention in the last decade owing to their application in new memory systems. Recently, phase-change memories have, in fact, reached the early stages of production. In spite of the industrial exploitation of such materials, the physical processes governing the switching mechanism are still debated. In this paper, we work out a complete and consistent model for transport in amorphous chalcogenide materials based on trap-limited conduction accompanied by carrier heating. A previous model is here extended to include positiondependent carrier concentration and field, consistently linked by the Poisson equation. The results of the new model reproduce the experimental electrical characteristics and thei...
The role of the extended (band) states in determining the electric switching of chalcogenide materia...
Physics of amorphous chalcogenides sets the scaling potentials of PCM elements and their perspective...
none4The hydrodynamic model for the trap-limited conduction regime in amorphous materials, used in t...
Chalcogenide materials have received great attention in the last decade owing to their application i...
Chalcogenide compounds (GST) are extensively being investigated as active materials in phase-change ...
Chalcogenide materials are receiving increasing interest for their many applications as active mate...
Chalcogenide materials are receiving increasing interest for their many applications as active mate...
Chalcogenide $mathrm{Ge_2Sb_2Te_5}$ material (GST) can suitably be exploited for manufacturing phase...
Hot-Carrier trap-limited transport in switching chalcogenides is studied by means of a numerical pro...
Starting from experimental results and first-principle simulations we have developed a transport mod...
The hydrodynamic model for the trap-limited conduction regime in amorphous materials, used in the de...
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...
The I(V) characteristics of amorphous chalcogenides usually show a negative differential conductance...
The role of the extended (band) states in determining the electric switching of chalcogenide materia...
Physics of amorphous chalcogenides sets the scaling potentials of PCM elements and their perspective...
none4The hydrodynamic model for the trap-limited conduction regime in amorphous materials, used in t...
Chalcogenide materials have received great attention in the last decade owing to their application i...
Chalcogenide compounds (GST) are extensively being investigated as active materials in phase-change ...
Chalcogenide materials are receiving increasing interest for their many applications as active mate...
Chalcogenide materials are receiving increasing interest for their many applications as active mate...
Chalcogenide $mathrm{Ge_2Sb_2Te_5}$ material (GST) can suitably be exploited for manufacturing phase...
Hot-Carrier trap-limited transport in switching chalcogenides is studied by means of a numerical pro...
Starting from experimental results and first-principle simulations we have developed a transport mod...
The hydrodynamic model for the trap-limited conduction regime in amorphous materials, used in the de...
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...
The I(V) characteristics of amorphous chalcogenides usually show a negative differential conductance...
The role of the extended (band) states in determining the electric switching of chalcogenide materia...
Physics of amorphous chalcogenides sets the scaling potentials of PCM elements and their perspective...
none4The hydrodynamic model for the trap-limited conduction regime in amorphous materials, used in t...