Ubiquitous Non-Majorana Zero-Bias Conductance Peaks in Nanowire Devices

Chen J.; Woods B. D.; Yu P.; Hocevar M.; Car D.; Plissard S. R.; Bakkers E. P. A. M.; Stanescu T. D.; Frolov S. M.

首页> 外文期刊>Physical review letters >Ubiquitous Non-Majorana Zero-Bias Conductance Peaks in Nanowire Devices

【24h】

Ubiquitous Non-Majorana Zero-Bias Conductance Peaks in Nanowire Devices

机译：纳米线器件中普遍存在的非马约拉纳零偏置电导峰

获取原文

获取原文并翻译 | 示例

获取外文期刊封面目录资料

开具论文收录证明 >>

文献代查 >>

文献数据库（团队版） >>

页面导航

摘要
著录项
引文网络
相似文献
相关主题

摘要

We perform tunneling measurements on indium antimonide nanowire-superconductor hybrid devices fabricated for the studies of Majorana bound states. At finite magnetic field, resonances that strongly resemble Majorana bound states, including zero-bias pinning, become common to the point of ubiquity. Since Majorana bound states are predicted in only a limited parameter range in nanowire devices, we seek an alternative explanation for the observed zero-bias peaks. With the help of a self-consistent Poission-Schrodinger multiband model developed in parallel, we identify several families of trivial subgap states that overlap and interact, giving rise to a crowded spectrum near zero energy and zero-bias conductance peaks in experiments. These findings advance the search for Majorana bound states through improved understanding of broader phenomena found in superconductor-semiconductor systems.

机译：我们对用于研究马里亚纳邦结合态的锑化铟铟纳米线-超导体混合器件进行隧穿测量。在有限的磁场下，普遍类似于马约拉那束缚态的共振（包括零偏置钉扎）变得很普遍。由于在纳米线器件中，仅在有限的参数范围内预测了马里亚纳束缚态，因此我们寻求观察到的零偏峰的替代解释。借助并行开发的自洽Poission-Schrodinger多频带模型，我们确定了多个重迭和相互作用的琐细亚隙状态族，从而在实验中产生了接近零能量和零偏置电导峰的拥挤光谱。这些发现通过对超导体-半导体系统中发现的更广泛现象的更好理解，推动了马约拉纳邦状态的搜索。

著录项

来源
《Physical review letters》 |2019年第10期|107703.1-107703.6|共6页
作者
Chen J.; Woods B. D.; Yu P.; Hocevar M.; Car D.; Plissard S. R.; Bakkers E. P. A. M.; Stanescu T. D.; Frolov S. M.;
展开▼
作者单位

Univ Pittsburgh Dept Phys & Astron Pittsburgh PA 15260 USA|Univ Pittsburgh Dept Elect & Comp Engn Pittsburgh PA 15261 USA|Univ Pittsburgh Peterson Inst NanoSci & Engn Pittsburgh PA 15261 USA;

West Virginia Univ Dept Phys & Astron Morgantown WV 26506 USA;

Univ Pittsburgh Dept Phys & Astron Pittsburgh PA 15260 USA;

Univ Grenoble Alpes CNRS Grenoble INP Inst Neel F-38000 Grenoble France;

Eindhoven Univ Technol NL-5600 MB Eindhoven Netherlands;

Univ Toulouse LAAS CNRS F-31031 Toulouse France;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类
关键词

相似文献

外文文献
中文文献
专利

1. Experimental phase diagram of zero-bias conductance peaks in superconductor/semiconductor nanowire devices [J] . Jun Chen, Peng Yu, John Stenger, Science Advances . 2017,第9期

机译：超导体/半导体纳米线器件中零偏置电导峰的实验相图
2. Parity independence of the zero-bias conductance peak in a nanowire based topological superconductor-quantum dot hybrid device [J] . M. T. Deng, C. L. Yu, G. Y. Huang, Scientific reports. . 2014,第期

机译：基于纳米岛拓扑超导体 - 量子点混合装置的零偏置电导峰的奇偶校验独立性
3. Anomalous zero-bias conductance peak in a Nb-InSb nanowire-Nb hybrid device [J] . Deng M.T., Yu C.L., Huang G.Y., Nano letters . 2012,第12期

机译：Nb-InSb纳米线-Nb混合器件中的异常零偏电导峰
4. Microscopic Out-of-Equilibrium Analysis of the Zero-Bias Conductance Peak in a One-Dimensional Topological Superconductor [C] . Nayana Shah Conference on Nuclei and Mesoscopic Physics . 2014

机译：一维拓扑超导体中零偏置电导峰的微观静脉平衡分析
5. Defect Passivation in Nanowires and Demonstration of Nanowire Devices for Use in Sensing Applications. [D] . Kar, Ayan. 2012

机译：纳米线中的钝化缺陷和用于传感应用的纳米线设备的演示。
6. Experimental phase diagram of zero-bias conductance peaks in superconductor/semiconductor nanowire devices [O] . Jun Chen, Peng Yu, John Stenger, 2017

机译：超导体/半导体纳米线器件中零偏置电导峰的实验相图
7. Experimental phase diagram of zero-bias conductance peaks in superconductor/semiconductor nanowire devices [O] . Chen, Jun, Yu, Peng, Stenger, John, 2017

机译：超导体/半导体纳米线器件中零偏置电导峰的实验相图

Ubiquitous Non-Majorana Zero-Bias Conductance Peaks in Nanowire Devices

摘要

著录项

引文网络

相似文献

相关主题

期刊订阅