Influence of Inversion Symmetry on the Metallic Behaviour in a Dilute Two-dimensional Hole System

Australian Journal of Physics Pub Date : 2000-08-15 DOI:10.1071/PH00019

A. Hamilton, M. Simmons, M. Pepper, D. Ritchie

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引用次数: 2

Abstract

In the past five years numerous experimental studies of a wide variety of low disorder two-dimensional (2D) semiconductor systems have revealed an unexpectedly large decrease in the resistance as the temperature is lowered from T ~ 1 K, suggesting the existence of a 2D metal. Although numerous theories have been put forward to explain this metallic-like behaviour (which contradicts the expectations of one parameter scaling theory), its origins, and the question of whether it persists to T = 0, are still subjects of great debate. We present a detailed study of the influence of inversion symmetry on the B = 0 metallic behaviour in a low density GaAs hole gas close to the apparent two-dimensional metal—insulator transition. The strength of the metallic behaviour (determined by the size of the drop in resistance as T→ 0) is found to be almost independent of the electric field across the hole gas, and is predominantly determined by the magnitude of k F l at low temperatures (i.e. by the low temperature resistivity). These results suggest that the shape of the potential well and spin—orbit effects alone cannot account for the existence of metallic behaviour in low density, strongly interacting 2D systems.

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反演对称性对稀二维空穴体系中金属行为的影响

在过去的五年中，对各种低无序二维(2D)半导体系统的大量实验研究表明，当温度从T降至1 K时，电阻会意外地大幅下降，这表明二维金属的存在。尽管已经提出了许多理论来解释这种类似金属的行为(这与单一参数标度理论的预期相矛盾)，但它的起源，以及它是否会持续到T = 0的问题，仍然是争论的主题。我们详细研究了在接近明显的二维金属-绝缘体转变的低密度GaAs空穴气体中，反演对称性对B = 0金属行为的影响。发现金属行为的强度(由T→0时电阻下降的大小决定)几乎与穿过孔气体的电场无关，并且主要由低温时的kfl大小(即低温电阻率)决定。这些结果表明，势阱的形状和自旋轨道效应不能单独解释低密度、强相互作用二维体系中金属行为的存在。

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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Australian Journal of Physics

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