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Topology and Correlations in Monolayer WTe2
 
Date: 2017-12-26
Time: 10:00
Venue: 中科院物理研究所M楼253报告厅
Speaker: Dr. Sanfeng Wu (吴三丰)

Massachusetts Institute of Technology (MIT)

报告人简介
Sanfeng Wu (吴三丰) grew up in Hefei, Anhui. He is currently a Pappalardo Fellow in Physics at Massachusetts Institute of Technology. He received his undergraduate degree at the University of Science and Technology of China in 2010 and his Ph.D. in physics at the University of Washington, Seattle in 2016. His research interests focus on observing and engineering quantum phenomena in low-dimensional electronic systems, particularly the atomically thin crystals and the atomic heterostructures created from them.

报告摘要:
Topology and correlations are two fundamental aspects that determine the electronic ground states of condensed matter systems. Both aspects individually have led to striking observations such as the quantum spin Hall insulating state and superconductivity, respectively. The combination of them can result in exotic phenomena including topological superconductivity and non-abelian anyons. In this talk I will report our recent study on monolayer tungsten ditelluride (WTe2), where we find that topology and correlations are simultaneously important in understanding its ground state properties. In the first part, I will talk about our quantum transport measurements for identifying the undoped monolayer WTe2 as a two-dimensional topological insulator. The observation of the quantum spin Hall effect surviving up to 100 Kelvin will be discussed. In the second part, I will report the observation of superconductivity below 1 Kelvin when the same monolayer is electrostatically doped through boron-nitride dielectric gating. These observations demonstrate that the ground state of the monolayer is remarkably gate-tunable between the two extremes of electronic transport in materials (insulator and superconductor). Our results establish monolayer WTe2 as a new material platform for studying rich electronic phenomena driven by topology and correlations, allowing for the creation of non-abelian quantum particles (Majorana zero modes) based on engineering 2D crystals.

邀 请 人: 胡江平  (电话:82649818 )
联 系 人: 朱绮伦  (电话:82648166 )


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