Comprehensive Scheme for Identifying Defects in Solid-State Quantum Systems
A solid-state quantum emitter is a crucial component for optical quantum technologies, ideally with a compatible wavelength for efficient coupling to other components in a quantum network. It is essential to understand fluorescent defects that lead to specific emitters. In this Letter, we employ den...
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th-mahidol.882632023-08-11T01:01:13Z Comprehensive Scheme for Identifying Defects in Solid-State Quantum Systems Cholsuk C. Mahidol University Chemistry A solid-state quantum emitter is a crucial component for optical quantum technologies, ideally with a compatible wavelength for efficient coupling to other components in a quantum network. It is essential to understand fluorescent defects that lead to specific emitters. In this Letter, we employ density functional theory (DFT) to demonstrate the calculations of the complete optical fingerprints of quantum emitters in hexagonal boron nitride. Our results suggest that instead of comparing a single optical property, like the zero-phonon line energy, multiple properties should be used when comparing simulations to the experiment. Moreover, we apply this approach to predict the suitability of using the emitters in specific quantum applications. We therefore apply DFT calculations to identify quantum emitters with a lower risk of misassignments and a way to design optical quantum systems. Hence, we provide a recipe for classification and generation of universal quantum emitters in future hybrid quantum networks. 2023-08-10T18:01:13Z 2023-08-10T18:01:13Z 2023-07-27 Article The journal of physical chemistry letters Vol.14 No.29 (2023) , 6564-6571 10.1021/acs.jpclett.3c01475 19487185 37458585 2-s2.0-85166362916 https://repository.li.mahidol.ac.th/handle/123456789/88263 SCOPUS |
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Chemistry Cholsuk C. Comprehensive Scheme for Identifying Defects in Solid-State Quantum Systems |
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A solid-state quantum emitter is a crucial component for optical quantum technologies, ideally with a compatible wavelength for efficient coupling to other components in a quantum network. It is essential to understand fluorescent defects that lead to specific emitters. In this Letter, we employ density functional theory (DFT) to demonstrate the calculations of the complete optical fingerprints of quantum emitters in hexagonal boron nitride. Our results suggest that instead of comparing a single optical property, like the zero-phonon line energy, multiple properties should be used when comparing simulations to the experiment. Moreover, we apply this approach to predict the suitability of using the emitters in specific quantum applications. We therefore apply DFT calculations to identify quantum emitters with a lower risk of misassignments and a way to design optical quantum systems. Hence, we provide a recipe for classification and generation of universal quantum emitters in future hybrid quantum networks. |
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Mahidol University |
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Mahidol University Cholsuk C. |
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Article |
| author |
Cholsuk C. |
| author_sort |
Cholsuk C. |
| title |
Comprehensive Scheme for Identifying Defects in Solid-State Quantum Systems |
| title_short |
Comprehensive Scheme for Identifying Defects in Solid-State Quantum Systems |
| title_full |
Comprehensive Scheme for Identifying Defects in Solid-State Quantum Systems |
| title_fullStr |
Comprehensive Scheme for Identifying Defects in Solid-State Quantum Systems |
| title_full_unstemmed |
Comprehensive Scheme for Identifying Defects in Solid-State Quantum Systems |
| title_sort |
comprehensive scheme for identifying defects in solid-state quantum systems |
| publishDate |
2023 |
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https://repository.li.mahidol.ac.th/handle/123456789/88263 |
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1781413839504408576 |