Phase Change Random Access Memory (PCRAM) is investigated as replacement for Flash. The memory concept is based on switching a chalcogenide from the crystalline (low ohmic) to the amorphous (high ohmic) state and vice versa. Basically two memory cell concepts exist: the Ovonic Unified Memory (OUM) and the line cell. Switching to the high ohmic or low ohmic state is done using Joule heating. A relatively short (~ns) electrical pulse with large amplitude is used to heat the crystalline phase to melt and quench into the amorphous state (RESET). A pulse with smaller amplitude heats the amorphous region above its crystallization temperature (lower than the melting temperature) and the material returns into the crystalline state (SET). In the OU...
Phase-change materials (PCM) possess a unique property contrast between their crystalline and amorph...
International audienceIn this paper we analyze recent progress in Phase-Change Memory (PCM) technolo...
As a promising candidate for a phase change material of a highly fast and scalable non-volatile memo...
Phase Change Random Access Memory (PCRAM) is investigated as replacement for Flash. The memory conce...
AbstractIn order to reduce the RESET current of phase change memory (PCM), which is fabricated using...
Phase change materials based on chalcogenides are key enabling technologies for optical storage, suc...
International audienceChalcogenide phase-change materials (PCMs), such as Ge-Sb-Te alloys, have show...
peer reviewedAbstract Chalcogenide Phase-Change Materials (PCMs), such as Ge-Sb-Te alloys, are showi...
As semiconductor devices continue to scale downward, and portable consumer electronics become more p...
Phase change memory (PCM) device physics comprehension represents an important chapter of future dev...
Phase-change random access memory (PCRAM) has attracted much attention for next-generation nonvolati...
MasterPhase-change memory (PCM) using chalcogenide materials has been spotlighted as non-volatile me...
Phase-change random access memory (PCRAM) is one of the next-generation memories with the most poten...
A promising candidate for a scalable Non-Volatile Memory is Phase Change Random Access Memory (PCRAM...
Phase change materials, typically composed out of Ge, Sb and Te alloys, are materials that can switc...
Phase-change materials (PCM) possess a unique property contrast between their crystalline and amorph...
International audienceIn this paper we analyze recent progress in Phase-Change Memory (PCM) technolo...
As a promising candidate for a phase change material of a highly fast and scalable non-volatile memo...
Phase Change Random Access Memory (PCRAM) is investigated as replacement for Flash. The memory conce...
AbstractIn order to reduce the RESET current of phase change memory (PCM), which is fabricated using...
Phase change materials based on chalcogenides are key enabling technologies for optical storage, suc...
International audienceChalcogenide phase-change materials (PCMs), such as Ge-Sb-Te alloys, have show...
peer reviewedAbstract Chalcogenide Phase-Change Materials (PCMs), such as Ge-Sb-Te alloys, are showi...
As semiconductor devices continue to scale downward, and portable consumer electronics become more p...
Phase change memory (PCM) device physics comprehension represents an important chapter of future dev...
Phase-change random access memory (PCRAM) has attracted much attention for next-generation nonvolati...
MasterPhase-change memory (PCM) using chalcogenide materials has been spotlighted as non-volatile me...
Phase-change random access memory (PCRAM) is one of the next-generation memories with the most poten...
A promising candidate for a scalable Non-Volatile Memory is Phase Change Random Access Memory (PCRAM...
Phase change materials, typically composed out of Ge, Sb and Te alloys, are materials that can switc...
Phase-change materials (PCM) possess a unique property contrast between their crystalline and amorph...
International audienceIn this paper we analyze recent progress in Phase-Change Memory (PCM) technolo...
As a promising candidate for a phase change material of a highly fast and scalable non-volatile memo...