Author
Listed:
- Yihao Yang
(Nanyang Technological University
Nanyang Technological University)
- Jian-ping Xia
(Jiangsu University)
- Hong-xiang Sun
(Jiangsu University)
- Yong Ge
(Jiangsu University)
- Ding Jia
(Jiangsu University)
- Shou-qi Yuan
(Jiangsu University)
- Shengyuan A. Yang
(Singapore University of Technology and Design)
- Yidong Chong
(Nanyang Technological University
Nanyang Technological University)
- Baile Zhang
(Nanyang Technological University
Nanyang Technological University)
Abstract
Three-dimensional (3D) gapless topological phases can be classified by the dimensionality of the band degeneracies, including zero-dimensional (0D) nodal points, one-dimensional (1D) nodal lines, and two-dimensional (2D) nodal surfaces. Both nodal points and nodal lines have been realized recently in photonics and acoustics. However, a nodal surface has never been observed in any classical-wave system. Here, we report on the experimental observation of a twofold symmetry-enforced nodal surface in a 3D chiral acoustic crystal. In particular, the demonstrated nodal surface carries a topological charge of 2, constituting the first realization of a higher-dimensional topologically-charged band degeneracy. Using direct acoustic field measurements, we observe the projected nodal surface and its Fermi-arc-like surface states and demonstrate topologically-induced robustness of the surface states against disorders. This discovery of a higher-dimensional topologically-charged band degeneracy paves the way toward further explorations of the physics and applications of new topological semimetal phases.
Suggested Citation
Yihao Yang & Jian-ping Xia & Hong-xiang Sun & Yong Ge & Ding Jia & Shou-qi Yuan & Shengyuan A. Yang & Yidong Chong & Baile Zhang, 2019.
"Observation of a topological nodal surface and its surface-state arcs in an artificial acoustic crystal,"
Nature Communications, Nature, vol. 10(1), pages 1-7, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-13258-3
DOI: 10.1038/s41467-019-13258-3
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