Universal Thermoelectric Characteristic in Phase Change Memories

N. Ciocchini, M. Laudato, A. Leone, P. Fantini, A. Lacaita, D. Ielmini
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引用次数: 2

Abstract

Thermoelectric effects play an important role in phase change memory (PCM), where phase transition and atomic migration are accelerated by temperature. A deep understanding of thermoelectric effects may allow a physics-based design of the cell structure and materials to optimize programming speed/energy and reliability. In this work we study the polarity-dependence of PCM characteristics, including crystallization, melting, electrical switching/holding, and ion migration. These characteristics show slower kinetics at negative voltage, which we attribute to thermoelectric effects of electrically-induced heating. We demonstrate a universal correlation of positive/negative kinetics, which we reproduce by modelling Thomson and Peltier heating in the PCM device.
相变存储器中的通用热电特性
热电效应在相变记忆(PCM)中起着重要的作用,温度会加速相变和原子迁移。对热电效应的深入理解可以使基于物理的电池结构和材料设计优化编程速度/能量和可靠性。在这项工作中,我们研究了PCM特性的极性依赖性,包括结晶,熔化,电气开关/保持和离子迁移。这些特性在负电压下表现出较慢的动力学,我们将其归因于电致加热的热电效应。我们证明了正/负动力学的普遍相关性,我们通过模拟汤姆逊和佩尔蒂埃加热在PCM装置中再现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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