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Scientists Observe Nearly Quantized Majorana Conductance Plateau in Iron-based Superconductor

Dec 13, 2019

Recently, Prof. GAO Hongjun Gao's and Prof. DING Hong's joint research group took a step further in the research of Majorana physics using the home-upgraded ultra-low-temperature and strong-magnetic-field scanning tunneling microscope/spectroscopy (STM/STS) system.

They observed conductance plateaus as a function of tunnel coupling for the zero-energy vortex bound states (Majorana zero modes) with values close to or even reaching the 2e2/h quantum conductance by continuously tuning the tunnel-coupling between STM tip and Fe(Te,Se) single crystal.

In contrast, no plateaus were observed on neither finite energy vortex bound states nor in the continuum of electronic states outside the superconducting gap (Fig. 2). The statistical analysis of 31 Majorana zero modes show the value of Majorana plateau concentrated near the quantized conductance 2e2/h.

In 1937, Ettore Majorana, an Italian physicist, predicted an elementary particle called the Majorana Fermion, for which the particle is its own anti-particle. The Majorana Fermion in condensed matter physics is also known as Majorana zero mode. Because Majorana zero modes obey non-Abel statistics, it holds a great promise for the realization of topological quantum computing, which has caused widespread concern.

Since 2014, the study of non-trivial topological band structures in iron-based superconductors was triggered by the researchers in Institute of Physics/University of Chinese Academy of Sciences (IOP/UCAS), Chinese Academy of Sciences, from both experimental perspective and theoretical efforts.

Starting from 2017, the joint group led by Prof. GAO Hongjun and Prof. DING Hong investigated the vortices in an iron-based superconductor using STM/STS. For the first time, they reported the observation of the evidence of Majorana zero modes in an iron-based superconductor Fe(Te,Se).

These results have been then verified by independent research groups from Fudan University, the Japan Institute of Physics and Chemistry (RIKEN), and other institutions. Moreover, the joint research group further performed a detailed study of Majorana zero modes in iron-based superconductors and found that there are two distinct types of vortices on the surface of Fe(Te,Se) single crystal when applying a magnetic field. These results provide a deep understanding of vortex bound states and the topological nature of the Majorana zero mode.

Although there is already a lot of experimental evidence for the existence of Majorana zero mode in iron-based superconductors, there still needs more efforts to exclude other possibilities contributing to zero-energy conductance signals. For example, in nanowire systems, the zero-bias peaks have been observed since 2012, but many topological trivial explanations have not been excluded until Kouwenhoven's research group observed the quantized conductance plateau.

In the latest experiment, scientists also investigated how the instrumental broadening and the quasiparticle poisoning effect affect the conductance plateau value from the theoretical quantized value 2e2/h (Fig. 3).

The observation of a zero-bias conductance plateau in the two-dimensional vortex case, which approaches the quantized conductance of 2e2/h, provides spatially-resolved spectroscopic evidence for Majorana-induced resonant electron transmission into a bulk superconductor, moving one step further towards the braiding operation applicable to topological quantum computation.

This study entitled "Nearly quantized conductance plateau of vortex zero mode in an iron-based superconductor" was published on Science on December 12, 2019.

The work is supported by grants from the Ministry of Science and Technology of China, the National Natural Science Foundation of China, and the Chinese Academy of Sciences.

 

Fig. 1. Zero-bias conductance plateau observed on Fe(Te,Se). (Image by IOP) 

 

Fig. 2. Majorana induced resonant Andreev reflection. (Image by IOP) 

 

Fig. 3. The conductance variation of Majorana plateau. (Image by IOP) 

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GAO Hongjun

Institute of Physics

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Nearly quantized conductance plateau of vortex zero mode in an iron-based superconductor

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