Quantum optics of exciton polariton networks
The strong coupling between light and matter in a semiconductor microcavity will induce the formation of a quasi-particle known as an exciton-polariton. Such quasi-particles are found to support an efficient information processing platform due to their capability to capture the characters from both...
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Nanyang Technological University
2022
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sg-ntu-dr.10356-1634402023-02-28T23:37:16Z Quantum optics of exciton polariton networks Xu, Huawen Liew Chi Hin Timothy School of Physical and Mathematical Sciences TimothyLiew@ntu.edu.sg Science::Physics::Optics and light The strong coupling between light and matter in a semiconductor microcavity will induce the formation of a quasi-particle known as an exciton-polariton. Such quasi-particles are found to support an efficient information processing platform due to their capability to capture the characters from both photons and excitons, for example: fast response time, strong nonlinear interaction, longer dephasing time, etc. This thesis concerns different proposals for information processing by utilizing the exciton-polariton system, while some schemes are general and applicable to other physical systems as well. First, I demonstrate that a disordered exciton polariton neural network can work as a reservoir computing platform to process binary information with the ability to correct an input error automatically. The Toffoli logic gate and a composite logic circuit are taken as examples for demonstration. In the next part, I take the quantum nature of exciton-polaritons into account. I utilize the Fock states of one single polariton mode to construct the reservoir network and perform a pattern classification task. By comparing the performance of such a quantum polaritonic reservoir network and the classical polariton reservoir network, I illustrate that there is a superpolynomial quantum enhancement in terms of the physical system size that requires to achieve the same classification e fficiency. Then I consider a multimode bosonic network. I demonstrate that the Kerr nonlinearity in a bosonic quantum neural network can correct environment noise and measurement errors. In the last chapter, I explain that the orbital angular momentum can be non-resonantly transferred onto a polariton condensate. A unidirectional signal propagation is achieved in a coupled polariton ring network by using the orbital angular momentum preserving pump. The control of signal propagation direction is essential for developing more complex multilayered neural networks. Doctor of Philosophy 2022-12-07T23:54:40Z 2022-12-07T23:54:40Z 2022 Thesis-Doctor of Philosophy Xu, H. (2022). Quantum optics of exciton polariton networks. Doctoral thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/163440 https://hdl.handle.net/10356/163440 10.32657/10356/163440 en This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0). application/pdf Nanyang Technological University |
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Science::Physics::Optics and light Xu, Huawen Quantum optics of exciton polariton networks |
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The strong coupling between light and matter in a semiconductor microcavity will induce the formation of a quasi-particle known as an exciton-polariton. Such quasi-particles are found to support an efficient information processing platform due to their capability to capture the characters from both photons and excitons, for example: fast response time, strong nonlinear interaction, longer dephasing time, etc.
This thesis concerns different proposals for information processing by utilizing the exciton-polariton system, while some schemes are general and applicable to other physical systems as well. First, I demonstrate that a disordered exciton polariton neural network can work as a reservoir computing platform to process binary information with the ability to correct an input error automatically. The Toffoli logic gate and a composite logic circuit are taken as examples for demonstration. In the next part, I take the quantum nature of exciton-polaritons into account. I utilize the Fock states of one single polariton mode to construct the reservoir network and perform a pattern classification task. By comparing the performance of such a quantum polaritonic reservoir network and the classical polariton reservoir network, I illustrate that there is a superpolynomial quantum enhancement in terms of the physical system size that requires to achieve the same classification e fficiency. Then I consider a multimode bosonic network. I demonstrate that the Kerr nonlinearity in a bosonic quantum neural network can correct environment noise and measurement errors. In the last chapter, I explain that the orbital angular momentum can be non-resonantly transferred onto a polariton condensate. A unidirectional signal propagation is achieved in a coupled polariton ring network by using the orbital angular momentum preserving pump. The control of signal propagation direction is essential for developing more complex multilayered neural networks. |
| author2 |
Liew Chi Hin Timothy |
| author_facet |
Liew Chi Hin Timothy Xu, Huawen |
| format |
Thesis-Doctor of Philosophy |
| author |
Xu, Huawen |
| author_sort |
Xu, Huawen |
| title |
Quantum optics of exciton polariton networks |
| title_short |
Quantum optics of exciton polariton networks |
| title_full |
Quantum optics of exciton polariton networks |
| title_fullStr |
Quantum optics of exciton polariton networks |
| title_full_unstemmed |
Quantum optics of exciton polariton networks |
| title_sort |
quantum optics of exciton polariton networks |
| publisher |
Nanyang Technological University |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163440 |
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1759854098921816064 |