Direct measurement of a non-Hermitian topological invariant in a hybrid light-matter system
Topology is central to understanding and engineering materials that display robust physical phenomena immune to imperfections. Different topological phases of matter are characterized by topological invariants. In energy-conserving (Hermitian) systems, these invariants are determined by the winding...
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2022
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sg-ntu-dr.10356-1562762023-02-28T20:07:42Z Direct measurement of a non-Hermitian topological invariant in a hybrid light-matter system Su, Rui Estrecho, Eliezer Biegańska, Dąbrówka Huang, Yuqing Wurdack, Matthias Pieczarka, Maciej Truscott, Andrew G. Liew, Timothy Chi Hin Ostrovskaya, Elena A. Xiong, Qihua School of Physical and Mathematical Sciences Science::Physics::Optics and light Superfluidity Exceptional Points Topology is central to understanding and engineering materials that display robust physical phenomena immune to imperfections. Different topological phases of matter are characterized by topological invariants. In energy-conserving (Hermitian) systems, these invariants are determined by the winding of eigenstates in momentum space. In non-Hermitian systems, a topological invariant is predicted to emerge from the winding of the complex eigenenergies. Here, we directly measure the non-Hermitian topological invariant arising from exceptional points in the momentum-resolved spectrum of exciton polaritons. These are hybrid light-matter quasiparticles formed by photons strongly coupled to electron-hole pairs (excitons) in a halide perovskite semiconductor at room temperature. We experimentally map out both the real (energy) and imaginary (linewidth) parts of the spectrum near the exceptional points and extract the novel topological invariant—fractional spectral winding. Our work represents an essential step toward realization of non-Hermitian topological phases in a condensed matter system. Ministry of Education (MOE) Published version Q.X. acknowledges the National Natural Science Foundation of China (no. 12020101003), strong support from the State Key Laboratory of Low-Dimensional Quantum Physics, and start-up grant from Tsinghua University. T.C.H.L. acknowledges the support from Singapore Ministry of Education via AcRF Tier 3 Programme “Geometrical Quantum Materials” (MOE2018-T3-1-002) and AcRF Tier 2 grants (MOE2017-T2-1-001, MOE2018-T2-02-068, and MOE2019-T2-1-004). E.E., E.A.O., M.W., and M.P. acknowledge support from the Australian Research Council (ARC) through the Centre of Excellence Grant CE170100039. M.P. also acknowledges support from the Foundation for Polish Science in the START programme. 2022-04-16T07:49:51Z 2022-04-16T07:49:51Z 2021 Journal Article Su, R., Estrecho, E., Biegańska, D., Huang, Y., Wurdack, M., Pieczarka, M., Truscott, A. G., Liew, T. C. H., Ostrovskaya, E. A. & Xiong, Q. (2021). Direct measurement of a non-Hermitian topological invariant in a hybrid light-matter system. Science Advances, 7(45), eabj8905-. https://dx.doi.org/10.1126/sciadv.abj8905 2375-2548 https://hdl.handle.net/10356/156276 10.1126/sciadv.abj8905 34731010 2-s2.0-85118659253 45 7 eabj8905 en MOE2018-T3-1-002 MOE2017-T2-1-001 MOE2018-T2-02-068 MOE2019-T2-1-004 Science Advances © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC). application/pdf |
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Science::Physics::Optics and light Superfluidity Exceptional Points Su, Rui Estrecho, Eliezer Biegańska, Dąbrówka Huang, Yuqing Wurdack, Matthias Pieczarka, Maciej Truscott, Andrew G. Liew, Timothy Chi Hin Ostrovskaya, Elena A. Xiong, Qihua Direct measurement of a non-Hermitian topological invariant in a hybrid light-matter system |
| description |
Topology is central to understanding and engineering materials that display robust physical phenomena immune to imperfections. Different topological phases of matter are characterized by topological invariants. In energy-conserving (Hermitian) systems, these invariants are determined by the winding of eigenstates in momentum space. In non-Hermitian systems, a topological invariant is predicted to emerge from the winding of the complex eigenenergies. Here, we directly measure the non-Hermitian topological invariant arising from exceptional points in the momentum-resolved spectrum of exciton polaritons. These are hybrid light-matter quasiparticles formed by photons strongly coupled to electron-hole pairs (excitons) in a halide perovskite semiconductor at room temperature. We experimentally map out both the real (energy) and imaginary (linewidth) parts of the spectrum near the exceptional points and extract the novel topological invariant—fractional spectral winding. Our work represents an essential step toward realization of non-Hermitian topological phases in a condensed matter system. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Su, Rui Estrecho, Eliezer Biegańska, Dąbrówka Huang, Yuqing Wurdack, Matthias Pieczarka, Maciej Truscott, Andrew G. Liew, Timothy Chi Hin Ostrovskaya, Elena A. Xiong, Qihua |
| format |
Article |
| author |
Su, Rui Estrecho, Eliezer Biegańska, Dąbrówka Huang, Yuqing Wurdack, Matthias Pieczarka, Maciej Truscott, Andrew G. Liew, Timothy Chi Hin Ostrovskaya, Elena A. Xiong, Qihua |
| author_sort |
Su, Rui |
| title |
Direct measurement of a non-Hermitian topological invariant in a hybrid light-matter system |
| title_short |
Direct measurement of a non-Hermitian topological invariant in a hybrid light-matter system |
| title_full |
Direct measurement of a non-Hermitian topological invariant in a hybrid light-matter system |
| title_fullStr |
Direct measurement of a non-Hermitian topological invariant in a hybrid light-matter system |
| title_full_unstemmed |
Direct measurement of a non-Hermitian topological invariant in a hybrid light-matter system |
| title_sort |
direct measurement of a non-hermitian topological invariant in a hybrid light-matter system |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/156276 |
| _version_ |
1759858086450823168 |