Phase change memory (PCM) is one of the most promising non-volatile memory technologies in the marketplace today and offers tremendous potential for high speed, energy efficient computing as a non-volatile DRAM replacement or as a direct competitor to flash memory. PCM devices utilize the electrical resistivity contrast between highly resistive amorphous and highly conductive crystalline phases of phase change materials. Their operation differs significantly from conventional solid state devices: PCM devices experience melting, resolidification and crystallization in nanosecond time scales, with high current densities and strong thermal gradients. Understanding threshold switching, crystallization dynamics, resistance drift phenomena, and e...
WOS:000355925600029The high contrast in the electrical resistivity between amorphous and crystalline...
Both Ag- and In-doped Sb2Te (AIST) and phase change materials located along the GeTe-Sb2Te3 pseudo-b...
Phase change materials, typically composed out of Ge, Sb and Te alloys, are materials that can switc...
Phase change memory (PCM) is one of the most promising non-volatile memory technologies in the marke...
The recent proliferation of portable communication devices or data storage equipment is strongly rel...
Phase change memory (PCM) is currently seen as the most promising candidate for a future storage-cla...
As semiconductor devices continue to scale downward, and portable consumer electronics become more p...
MasterPhase-change memory (PCM) using chalcogenide materials has been spotlighted as non-volatile me...
Phase change materials have been extensively studied due to their promising applications in phase ch...
The large resistance contrast between amorphous and crystalline states of phase change materials (PC...
Phase change materials based on chalcogenides are key enabling technologies for optical storage, suc...
Chalcogenide glassy semiconductors exhibit ultrafast reversible electrical switching from highly res...
Phase Change Memory (PCM) is a promising candidate for next generation non-volatile memory devices. ...
Under extreme thermal gradients (~\u3e 1 K/nm) significant asymmetric melting of current-carrying hi...
<p>Chalcogenide phase change (PC) materials can be reversibly transformed between the high resistivi...
WOS:000355925600029The high contrast in the electrical resistivity between amorphous and crystalline...
Both Ag- and In-doped Sb2Te (AIST) and phase change materials located along the GeTe-Sb2Te3 pseudo-b...
Phase change materials, typically composed out of Ge, Sb and Te alloys, are materials that can switc...
Phase change memory (PCM) is one of the most promising non-volatile memory technologies in the marke...
The recent proliferation of portable communication devices or data storage equipment is strongly rel...
Phase change memory (PCM) is currently seen as the most promising candidate for a future storage-cla...
As semiconductor devices continue to scale downward, and portable consumer electronics become more p...
MasterPhase-change memory (PCM) using chalcogenide materials has been spotlighted as non-volatile me...
Phase change materials have been extensively studied due to their promising applications in phase ch...
The large resistance contrast between amorphous and crystalline states of phase change materials (PC...
Phase change materials based on chalcogenides are key enabling technologies for optical storage, suc...
Chalcogenide glassy semiconductors exhibit ultrafast reversible electrical switching from highly res...
Phase Change Memory (PCM) is a promising candidate for next generation non-volatile memory devices. ...
Under extreme thermal gradients (~\u3e 1 K/nm) significant asymmetric melting of current-carrying hi...
<p>Chalcogenide phase change (PC) materials can be reversibly transformed between the high resistivi...
WOS:000355925600029The high contrast in the electrical resistivity between amorphous and crystalline...
Both Ag- and In-doped Sb2Te (AIST) and phase change materials located along the GeTe-Sb2Te3 pseudo-b...
Phase change materials, typically composed out of Ge, Sb and Te alloys, are materials that can switc...