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Literature DB >> 33859030

Realization of an ideal Weyl semimetal band in a quantum gas with 3D spin-orbit coupling.

Zong-Yao Wang^1,2,3, Xiang-Can Cheng^1,2,3, Bao-Zong Wang^1,4, Jin-Yi Zhang^1,2,3, Yue-Hui Lu^4,5, Chang-Rui Yi^1,2,3, Sen Niu^4,5, Youjin Deng^1,2,3, Xiong-Jun Liu^6,5, Shuai Chen^7,2,3, Jian-Wei Pan^7,2,3.

Abstract

Weyl semimetals are three-dimensional (3D) gapless topological phases with Weyl cones in the bulk band. According to lattice theory, Weyl cones must come in pairs, with the minimum number of cones being two. A semimetal with only two Weyl cones is an ideal Weyl semimetal (IWSM). Here we report the experimental realization of an IWSM band by engineering 3D spin-orbit coupling for ultracold atoms. The topological Weyl points are clearly measured via the virtual slicing imaging technique in equilibrium and are further resolved in the quench dynamics. The realization of an IWSM band opens an avenue to investigate various exotic phenomena that are difficult to access in solids.

Year: 2021 PMID： 33859030 DOI： 10.1126/science.abc0105

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

4 in total

Realization of an ideal Weyl semimetal band in a quantum gas with 3D spin-orbit coupling.

1. Topological phase change transistors based on tellurium Weyl semiconductor.

2. Atom-optically synthetic gauge fields for a noninteracting Bose gas.

3. Spin-orbit coupling in buckled monolayer nitrogene.

4. "Designing synthetic topological matter with atoms and lights".