在二维空穴系统中连接回复绝缘相和零场金属-绝缘体相变。

Connecting the reentrant insulating phase and the zero-field metal-insulator transition in a 2D hole system.

机构信息

Department of Physics, Case Western Reserve University, Cleveland, Ohio 44106, USA.

出版信息

Phys Rev Lett. 2012 Mar 9;108(10):106404. doi: 10.1103/PhysRevLett.108.106404. Epub 2012 Mar 7.

DOI:10.1103/PhysRevLett.108.106404

Abstract

We present the transport and capacitance measurements of 10 nm wide GaAs quantum wells with hole densities around the critical point of the 2D metal-insulator transition (critical density p(c) down to 0.8 × 10(10)/cm2, r(s) ∼ 36). For metallic hole density p(c) < p < p(c) + 0.15 × 10(10)/cm2, a reentrant insulating phase (RIP) is observed between the ν = 1 quantum Hall state and the zero-field metallic state and it is attributed to the formation of pinned Wigner crystal. Through studying the evolution of the RIP versus 2D hole density, we show that the RIP is incompressible and continuously connected to the zero-field insulator, suggesting a similar origin for these two phases.

摘要

我们展示了 10nm 宽 GaAs 量子阱的输运和电容测量结果，这些量子阱的空穴密度接近 2D 金属-绝缘体转变的临界点（临界密度 p(c) 低至 0.8×10(10)/cm2，r(s)∼36）。对于金属空穴密度 p(c)<p<p(c)+0.15×10(10)/cm2，在 ν=1 量子霍尔态和零场金属态之间观察到了再入绝缘相（RIP），这归因于固定的 Wigner 晶体的形成。通过研究 RIP 相对于 2D 空穴密度的演化，我们表明 RIP 是不可压缩的，并与零场绝缘相连续连接，这表明这两个相具有相似的起源。

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在二维空穴系统中连接回复绝缘相和零场金属-绝缘体相变。

Connecting the reentrant insulating phase and the zero-field metal-insulator transition in a 2D hole system.

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