Phase-Change Random Access Memory With Multilevel Resistances Implemented Using a Dual Phase-Change Material Stack

Author

Gyanathan, Ashvini ; Yeo, Yee-Chia

Author_Institution

Dept. of Electr. & Comput. Eng., Nat. Univ. of Singapore, Singapore, Singapore

Volume

59

Issue

11

fYear

2012

Firstpage

2910

Lastpage

2916

Abstract

This paper investigates the multilevel behavior of phase-change random access memory devices with a dual phase-change material (PCM) stack, i.e., two PCMs stacked on one another. The dual PCM stack comprises of a Ge₂Sb₂Te₅ (GST) layer and a top PCM layer sandwiching a SiN barrier layer. The top PCM layer was varied in three different splits: Ag_0.5In_0.5Sb₃Te₆ (AIST), Ge₁Sb₄Te₇ (GST147), and nitrogen-doped GST (NGST). Extensive electrical characterization and statistical analysis were performed. The intrinsic properties of AIST, GST147, and NGST were used to explain the differences in electrical performances of the three multilevel device splits. The AIST/SiN/GST device split was found to have had the best electrical performance. The difference in electrical resistivities and thermal conductivities played a major role in the power consumption as well as the resistance values of the three multilevel states in these dual PCM multilevel devices.

Keywords

antimony compounds; electrical resistivity; germanium compounds; indium compounds; nitrogen; phase change materials; phase change memories; random-access storage; silicon compounds; silver compounds; statistical analysis; thermal conductivity; AIST; Ag_0.5In_0.5Sb₃Te₆; GST layer; GST147; Ge₂Sb₂Te₅:N; PCM stack; SiN; dual PCM multilevel devices; dual phase-change material stack; electrical characterization; electrical resistivity; multilevel behavior; multilevel resistances; phase-change random access memory devices; power consumption; statistical analysis; thermal conductivity; top PCM layer; Conductivity; Electrical resistance measurement; Phase change materials; Phase change random access memory; Resistance; Silicon compounds; Switches; $hbox{Ag}_{0.5}hbox{In}_{0.5}hbox{Sb}_{3}hbox{Te}_{6}$ (AIST); $hbox{Ge}_{1}hbox{Sb}_{4}hbox{Te}_{7}$ (GST147); $hbox{Ge}_{2}hbox{Sb}_{2}hbox{Te}_{5}$ (GST); crystallization temperature; melting temperature; multilevel; nitrogen-doped GST (NGST); phase-change random access memory (PCRAM);

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/TED.2012.2211881

Filename

6287012