Observation of topological edge states induced solely by non-Hermiticity in an acoustic crystal
Non-Hermiticity alters band topology in the presence of loss and/or gain in topological systems, which not only introduces new definitions in topological classifications, topological invariants, and the bulk-boundary correspondence, but also gives rise to unprecedented applications such as topologic...
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sg-ntu-dr.10356-1548112023-02-28T20:02:42Z Observation of topological edge states induced solely by non-Hermiticity in an acoustic crystal Gao, He Xue, Haoran Wang, Qiang Gu, Zhongming Liu, Tuo Zhu, Jie Zhang, Baile School of Physical and Mathematical Sciences Centre for Disruptive Photonic Technologies (CDPT) Science::Physics Acoustic Metamaterials Topological Insulators Non-Hermiticity alters band topology in the presence of loss and/or gain in topological systems, which not only introduces new definitions in topological classifications, topological invariants, and the bulk-boundary correspondence, but also gives rise to unprecedented applications such as topological insulator lasers. Most existing non-Hermitian topological systems derive their topological phases from Hermitian components, rather than being driven by non-Hermiticity itself. Here we report on the experimental observation of topological edge states induced solely by non-Hermiticity in an acoustic crystal. The acoustic crystal consists of a periodic one-dimensional chain of coupled acoustic resonators with tunable loss. In the Hermitian limit, or when the loss is negligible, the crystal exhibits no band gap and hosts no topological edge states. By introducing loss, we show that a band gap is induced, which can be either topological or trivial, depending on the loss configuration. In the topological case, topological edge modes are found inside the band gap. These results demonstrate that non-Hermiticity is able to drive a topological phase transition from a trivial system to a topological one, offering the possibilities for actively steerable topological wave manipulations in applications ranging from acoustics to photonics. Ministry of Education (MOE) Published version This research/project is supported by the Ministry of Education, Singapore, under its Tier 2 Award No. MOE 2018-T2-1-022(S). J.Z. acknowledges support from the General Research Fund scheme of Research Grants Council of Hong Kong under Grant No. PolyU 152119/18E. 2022-01-10T08:02:40Z 2022-01-10T08:02:40Z 2020 Journal Article Gao, H., Xue, H., Wang, Q., Gu, Z., Liu, T., Zhu, J. & Zhang, B. (2020). Observation of topological edge states induced solely by non-Hermiticity in an acoustic crystal. Physical Review B, 101(18), 180303-. https://dx.doi.org/10.1103/PhysRevB.101.180303 2469-9950 https://hdl.handle.net/10356/154811 10.1103/PhysRevB.101.180303 2-s2.0-85085495555 18 101 180303 en MOE 2018-T2-1-022(S) Physical Review B 10.21979/N9/NLFLXR © 2020 American Physical Society. All rights reserved. This paper was published in Physical Review B and is made available with permission of American Physical Society. application/pdf |
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Science::Physics Acoustic Metamaterials Topological Insulators Gao, He Xue, Haoran Wang, Qiang Gu, Zhongming Liu, Tuo Zhu, Jie Zhang, Baile Observation of topological edge states induced solely by non-Hermiticity in an acoustic crystal |
| description |
Non-Hermiticity alters band topology in the presence of loss and/or gain in topological systems, which not only introduces new definitions in topological classifications, topological invariants, and the bulk-boundary correspondence, but also gives rise to unprecedented applications such as topological insulator lasers. Most existing non-Hermitian topological systems derive their topological phases from Hermitian components, rather than being driven by non-Hermiticity itself. Here we report on the experimental observation of topological edge states induced solely by non-Hermiticity in an acoustic crystal. The acoustic crystal consists of a periodic one-dimensional chain of coupled acoustic resonators with tunable loss. In the Hermitian limit, or when the loss is negligible, the crystal exhibits no band gap and hosts no topological edge states. By introducing loss, we show that a band gap is induced, which can be either topological or trivial, depending on the loss configuration. In the topological case, topological edge modes are found inside the band gap. These results demonstrate that non-Hermiticity is able to drive a topological phase transition from a trivial system to a topological one, offering the possibilities for actively steerable topological wave manipulations in applications ranging from acoustics to photonics. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Gao, He Xue, Haoran Wang, Qiang Gu, Zhongming Liu, Tuo Zhu, Jie Zhang, Baile |
| format |
Article |
| author |
Gao, He Xue, Haoran Wang, Qiang Gu, Zhongming Liu, Tuo Zhu, Jie Zhang, Baile |
| author_sort |
Gao, He |
| title |
Observation of topological edge states induced solely by non-Hermiticity in an acoustic crystal |
| title_short |
Observation of topological edge states induced solely by non-Hermiticity in an acoustic crystal |
| title_full |
Observation of topological edge states induced solely by non-Hermiticity in an acoustic crystal |
| title_fullStr |
Observation of topological edge states induced solely by non-Hermiticity in an acoustic crystal |
| title_full_unstemmed |
Observation of topological edge states induced solely by non-Hermiticity in an acoustic crystal |
| title_sort |
observation of topological edge states induced solely by non-hermiticity in an acoustic crystal |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/154811 |
| _version_ |
1759854995195297792 |