Observation of exciton polariton condensation in a perovskite lattice at room temperature
Exciton polaritons, with extremely low effective mass1, are regarded as promising candidates to realize Bose–Einstein condensation in lattices for quantum simulations2 towards room-temperature operations3–8. Along with the condensation, an efficient exciton polariton quantum simulator9 would require...
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sg-ntu-dr.10356-1382022023-02-28T20:05:35Z Observation of exciton polariton condensation in a perovskite lattice at room temperature Su, Rui Ghosh, Sanjib Wang, Jun Liu, Sheng Diederichs, Carole Liew, Timothy Chi Hin Xiong, Qihua School of Physical and Mathematical Sciences Science::Physics::Optics and light Exciton Polariton Perovskite Exciton polaritons, with extremely low effective mass1, are regarded as promising candidates to realize Bose–Einstein condensation in lattices for quantum simulations2 towards room-temperature operations3–8. Along with the condensation, an efficient exciton polariton quantum simulator9 would require a strong lattice with robust polariton trapping as well as strong intersite coupling to allow coherent quantum motion of polaritons within the lattice. A strong lattice can be characterized with a larger forbidden bandgap opening and a larger lattice bandwidth compared with the linewidth. However, exciton polaritons in such strong lattices have only been shown to condense at cryogenic temperatures3–8. Here, we report the observation of non-equilibrium exciton polariton condensation in a one-dimensional strong lead halide perovskite lattice at room temperature. Modulated by deep periodic potentials, the strong lead halide perovskite lattice exhibits a large forbidden bandgap opening up to 13.3 meV and a lattice band up to 8.5 meV wide, which are at least 10 times larger than previous systems. Above a critical density, we observe polariton condensation into py orbital states with long-range spatial coherence at room temperature. Our result opens the route to the implementation of polariton condensates in quantum simulators at room temperature. 2020-04-29T01:56:25Z 2020-04-29T01:56:25Z 2020 Journal Article Su, R., Ghosh, S., Wang, J., Liu, S., Diederichs, C., Liew, T. C. H. & Xiong, Q. (2020). Observation of exciton polariton condensation in a perovskite lattice at room temperature. Nature Physics, 16(3), 301-306. https://dx.doi.org/10.1038/s41567-019-0764-5 1745-2473 https://hdl.handle.net/10356/138202 10.1038/s41567-019-0764-5 2-s2.0-85077909859 3 16 301 306 en Nature Physics https://doi.org/10.21979/N9/EZLMHJ © 2020 The Author(s), under exclusive licence to Springer Nature Limited. All rights reserved. This paper was published in Nature Physics and is made available with permission of The Author(s), under exclusive licence to Springer Nature Limited. application/pdf |
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Science::Physics::Optics and light Exciton Polariton Perovskite Su, Rui Ghosh, Sanjib Wang, Jun Liu, Sheng Diederichs, Carole Liew, Timothy Chi Hin Xiong, Qihua Observation of exciton polariton condensation in a perovskite lattice at room temperature |
| description |
Exciton polaritons, with extremely low effective mass1, are regarded as promising candidates to realize Bose–Einstein condensation in lattices for quantum simulations2 towards room-temperature operations3–8. Along with the condensation, an efficient exciton polariton quantum simulator9 would require a strong lattice with robust polariton trapping as well as strong intersite coupling to allow coherent quantum motion of polaritons within the lattice. A strong lattice can be characterized with a larger forbidden bandgap opening and a larger lattice bandwidth compared with the linewidth. However, exciton polaritons in such strong lattices have only been shown to condense at cryogenic temperatures3–8. Here, we report the observation of non-equilibrium exciton polariton condensation in a one-dimensional strong lead halide perovskite lattice at room temperature. Modulated by deep periodic potentials, the strong lead halide perovskite lattice exhibits a large forbidden bandgap opening up to 13.3 meV and a lattice band up to 8.5 meV wide, which are at least 10 times larger than previous systems. Above a critical density, we observe polariton condensation into py orbital states with long-range spatial coherence at room temperature. Our result opens the route to the implementation of polariton condensates in quantum simulators at room temperature. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Su, Rui Ghosh, Sanjib Wang, Jun Liu, Sheng Diederichs, Carole Liew, Timothy Chi Hin Xiong, Qihua |
| format |
Article |
| author |
Su, Rui Ghosh, Sanjib Wang, Jun Liu, Sheng Diederichs, Carole Liew, Timothy Chi Hin Xiong, Qihua |
| author_sort |
Su, Rui |
| title |
Observation of exciton polariton condensation in a perovskite lattice at room temperature |
| title_short |
Observation of exciton polariton condensation in a perovskite lattice at room temperature |
| title_full |
Observation of exciton polariton condensation in a perovskite lattice at room temperature |
| title_fullStr |
Observation of exciton polariton condensation in a perovskite lattice at room temperature |
| title_full_unstemmed |
Observation of exciton polariton condensation in a perovskite lattice at room temperature |
| title_sort |
observation of exciton polariton condensation in a perovskite lattice at room temperature |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/138202 https://doi.org/10.21979/N9/EZLMHJ |
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1759855098922532864 |