Selective area epitaxy of PbTe-Pb hybrid nanowires on a lattice-matched substrate

Jiang，Yuying1; Yang，Shuai2; Li，Lin2; Song，Wenyu1; Miao，Wentao1; Tong，Bingbing2; Geng，Zuhan1; Gao，Yichun1; Li，Ruidong1; Chen，Fangting1; Zhang，Qinghua3; Meng，Fanqi3; Gu，Lin3; Zhu，Kejing2; Zang，Yunyi2; Shang，Runan2; Cao，Zhan2; Feng，Xiao1,2,4; Xue，Qi Kun1,2,4,5; Liu，Dong E.1,2,4; Zhang，Hao1,2,4; He，Ke1,2,4

2022-03-01

10.1103/PhysRevMaterials.6.034205

Physical Review Materials   影响因子和分区

2475-9953

Topological quantum computing is based on the braiding of Majorana zero modes encoding topological qubits. A promising candidate platform for Majorana zero modes is semiconductor-superconductor hybrid nanowires. The realization of topological qubits and braiding operations requires scalable and disorder-free nanowire networks. Selective area growth of in-plane InAs and InSb nanowires, together with shadow-wall growth of superconductor structures, have demonstrated this scalability by achieving various network structures. However, the noticeable lattice mismatch at the nanowire-substrate interface, acting as a disorder source, imposes a serious obstacle along with this road map. Here, combining selective area and shadow-wall growth, we demonstrate the fabrication of PbTe-Pb hybrid nanowires-another potentially promising Majorana system-on a nearly perfectly lattice-matched substrate CdTe, all done in one molecular beam epitaxy chamber. Transmission electron microscopy shows the single-crystal nature of the PbTe nanowire and its atomically sharp and clean interfaces to the CdTe substrate and Pb overlayer, without noticeable interdiffusion or strain. The nearly ideal interface condition, together with the strong screening of charge impurities due to the large dielectric constant of PbTe, holds promise towards a clean nanowire system to study Majorana zero modes and topological quantum computing.

EI

英语

其他

National Natural Science Foundation of China[11974198];National Natural Science Foundation of China[12004040];National Key Research and Development Program of China[2017YFA0303303];National Natural Science Foundation of China[51788104];National Natural Science Foundation of China[92065206];

2-s2.0-85127251592

Scopus

1.State Key Laboratory of Low Dimensional Quantum Physics,Department of Physics,Tsinghua University,Beijing,100084,China
2.Beijing Academy of Quantum Information Sciences,Beijing,100193,China
3.Institute of Physics,Chinese Academy of Sciences,Beijing,100190,China
4.Frontier Science Center for Quantum Information,Beijing,100084,China
5.Southern University of Science and Technology,Shenzhen,518055,China

Jiang，Yuying,Yang，Shuai,Li，Lin,et al. Selective area epitaxy of PbTe-Pb hybrid nanowires on a lattice-matched substrate[J]. Physical Review Materials,2022,6(3).

Jiang，Yuying.,Yang，Shuai.,Li，Lin.,Song，Wenyu.,Miao，Wentao.,...&He，Ke.(2022).Selective area epitaxy of PbTe-Pb hybrid nanowires on a lattice-matched substrate.Physical Review Materials,6(3).

Jiang，Yuying,et al."Selective area epitaxy of PbTe-Pb hybrid nanowires on a lattice-matched substrate".Physical Review Materials 6.3(2022).