# Towards low-dimensional hole systems in Be-doped GaAs nanowires

**Authors:** A.R. Ullah, J.G. Gluschke, P. Krogstrup, C.B. S{\o}rensen, J., Nyg{\aa}rd, A.P. Micolich

arXiv: 1704.03957 · 2017-04-14

## TL;DR

This study develops Be-doped GaAs nanowire transistors to explore low-dimensional hole systems, demonstrating promising electrical characteristics and potential for quantum device applications.

## Contribution

We fabricated and characterized Be-doped GaAs nanowire transistors with various doping levels and contact treatments, highlighting their suitability for quantum hole device research.

## Key findings

- Good on-off ratio (~10^4) at 4 K
- Conductance plateau suggests possible quantization
- Moderate doping yields optimal transistor performance

## Abstract

GaAs was central to the development of quantum devices but is rarely used for nanowire-based quantum devices with InAs, InSb and SiGe instead taking the leading role. p-type GaAs nanowires offer a path to studying strongly-confined 0D and 1D hole systems with strong spin-orbit effects, motivating our development of nanowire transistors featuring Be-doped p-type GaAs nanowires, AuBe alloy contacts and patterned local gate electrodes towards making nanowire-based quantum hole devices. We report on nanowire transistors with traditional substrate back-gates and EBL-defined metal/oxide top-gates produced using GaAs nanowires with three different Be-doping densities and various AuBe contact processing recipes. We show that contact annealing only brings small improvements for the moderately-doped devices under conditions of lower anneal temperature and short anneal time. We only obtain good transistor performance for moderate doping, with conduction freezing out at low temperature for lowly-doped nanowires and inability to reach a clear off-state under gating for the highly-doped nanowires. Our best devices give on-state conductivity 95 nS, off-state conductivity 2 pS, on-off ratio ~$10^{4}$, and sub-threshold slope 50 mV/dec at T = 4 K. Lastly, we made a device featuring a moderately-doped nanowire with annealed contacts and multiple top-gates. Top-gate sweeps show a plateau in the sub-threshold region that is reproducible in separate cool-downs and indicative of possible conductance quantization highlighting the potential for future quantum device studies in this material system.

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/1704.03957/full.md

## References

53 references — full list in the complete paper: https://tomesphere.com/paper/1704.03957/full.md

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Source: https://tomesphere.com/paper/1704.03957