相变沟道晶体管相变厚度依赖性及沟道电流控制

2005 IEEE Conference on Electron Devices and Solid-State Circuits Pub Date : 2005-12-19 DOI:10.1109/EDSSC.2005.1635349

Y. Yin, A. Miyachi, D. Niida, H. Sone, S. Hosaka

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引用次数: 1

摘要

采用焦耳加热和退火的方法，研究了10 ~ 200 nm厚度的ge2sb2te5薄膜沟道相变晶体管的电学特性和沟道电流控制效果。通过焦耳加热测量了显示相变的I-V特性。从非晶到晶体的转换电流约为2μA。在50nm至200nm厚的器件中，由于焦耳加热，栅极电压对通道电流的控制作用并不强。在具有超薄通道的器件中切换到低阻状态是困难的，这可能是由于加热的ge2sb2te5通道中形成了大的空隙。退火后，由于相变，器件的漏源电阻下降了约3个数量级。观察到明显的通道电流控制效应，特别是对于具有超薄通道的器件。通道电流控制效果存在很强的厚度依赖性。

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Thickness Dependences of Phase Change and Channel Current Control in Phase-Change Channel Transistor

We investigated electrical properties on phase change and channel current control effect in phase-change channel transistors with a 10-nm- to 200-nm-thick Ge2Sb2Te5film channel by Joule heating and annealing. I-V characteristics showing a phase change by Joule heating were measured. The current switching from an amorphous to crystalline state is about 2μA. A channel current control effect by the gate voltage since Joule heating in 50-nm- to 200-nm-thick devices was observed but not strong. Switching to the lowly resistive state in devices with an ultrathin channel was difficult, which might be due to large voids forming in the heated Ge2Sb2Te5channel. After annealing, drain-source resistance of devices dropped by about 3 orders of magnitude owing to phase change. A clear channel current control effect was observed especially for devices with an ultrathin channel. There exists a strong thickness dependence of channel current control effect.

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2005 IEEE Conference on Electron Devices and Solid-State Circuits

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