Free-electron Brewster-transition radiation
We reveal a mechanism to enhance particle-matter interactions by exploiting the pseudo-Brewster effect of gain materials, presenting an enhancement of at least four orders of magnitude for light emission. This mechanism is enabled by the emergence of an unprecedented phase diagram that maps all phen...
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2023
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sg-ntu-dr.10356-1700882023-08-28T15:34:56Z Free-electron Brewster-transition radiation Chen, Ruoxi Chen, Jialin Gong, Zheng Zhang, Xinyan Zhu, Xingjian Yang, Yi Kaminer, Ido Chen, Hongsheng Zhang, Baile Lin, Xiao School of Physical and Mathematical Sciences Centre for Disruptive Photonic Technologies (CDPT) Science::Physics Science::Physics::Optics and light Light Emission Thickness We reveal a mechanism to enhance particle-matter interactions by exploiting the pseudo-Brewster effect of gain materials, presenting an enhancement of at least four orders of magnitude for light emission. This mechanism is enabled by the emergence of an unprecedented phase diagram that maps all phenomena of free-electron transition radiation into three distinct phases in a gain-thickness parameter space, namely, the conventional, intermediate, and Brewster phases, when an electron penetrates a dielectric slab with a modest gain and a finite thickness. Essentially, our revealed mechanism corresponds to the free-electron transition radiation in the Brewster phase, which also features ultrahigh directionality, always at the Brewster angle, regardless of the electron velocity. Counterintuitively, we find that the intensity of this free-electron Brewster-transition radiation is insensitive to the Fabry-Pérot resonance condition and, thus, the variation of slab thickness, and moreover, a weaker gain could lead to a stronger enhancement for light emission. National Research Foundation (NRF) Published version X.L. acknowledgesthe supportpartlyfrom the National Natural ScienceFund forExcellentYoung Scientists Fund Program (Overseas)of China,the NationalNatural ScienceFoundation of China(NSFC)undergrant no. 62175212,ZhejiangProvincialNatural ScienceFund Key Project undergrant no. LZ23F050003,and the FundamentalResearch Funds for theCentral Universities(2021FZZX001-19).H.C. acknowledgesthe supportfrom the Key Researchand DevelopmentProgram of the Ministry of Scienceand Technologyundergrant nos.2022YFA1404704,2022YFA1404902,and 2022YFA1405200and the NationalNatural ScienceFoundation of China(NNSFC)undergrant nos.11961141010and 61975176.J.C. acknowledgesthe supportfrom the ChineseScholarshipCouncil(CSC no. 202206320287).Y.Y. acknowledgesthe supportfrom the start-upfund of the University of Hong Kong and the NationalNaturalScienceFoundationof ChinaExcellentYoung ScientistsFund (HKU 12222417).I.K.acknowledgesthe supportfromthe Israel ScienceFoundation undergrant no. 3334/19andtheIsrael ScienceFoundationundergrant no. 830/19.B.Z. acknowledgesthe supportfromSingapore National Research Foundation Competitive Research Program no. NRF-CRP23-2019-0007. 2023-08-28T02:43:26Z 2023-08-28T02:43:26Z 2023 Journal Article Chen, R., Chen, J., Gong, Z., Zhang, X., Zhu, X., Yang, Y., Kaminer, I., Chen, H., Zhang, B. & Lin, X. (2023). Free-electron Brewster-transition radiation. Science Advances, 9(32), eadh8098-. https://dx.doi.org/10.1126/sciadv.adh8098 2375-2548 https://hdl.handle.net/10356/170088 10.1126/sciadv.adh8098 37566659 2-s2.0-85167745033 32 9 eadh8098 en NRF-CRP23-2019- 0007 Science Advances © 2023 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 License4.0 (CC BY-NC). application/pdf |
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Science::Physics Science::Physics::Optics and light Light Emission Thickness |
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Science::Physics Science::Physics::Optics and light Light Emission Thickness Chen, Ruoxi Chen, Jialin Gong, Zheng Zhang, Xinyan Zhu, Xingjian Yang, Yi Kaminer, Ido Chen, Hongsheng Zhang, Baile Lin, Xiao Free-electron Brewster-transition radiation |
| description |
We reveal a mechanism to enhance particle-matter interactions by exploiting the pseudo-Brewster effect of gain materials, presenting an enhancement of at least four orders of magnitude for light emission. This mechanism is enabled by the emergence of an unprecedented phase diagram that maps all phenomena of free-electron transition radiation into three distinct phases in a gain-thickness parameter space, namely, the conventional, intermediate, and Brewster phases, when an electron penetrates a dielectric slab with a modest gain and a finite thickness. Essentially, our revealed mechanism corresponds to the free-electron transition radiation in the Brewster phase, which also features ultrahigh directionality, always at the Brewster angle, regardless of the electron velocity. Counterintuitively, we find that the intensity of this free-electron Brewster-transition radiation is insensitive to the Fabry-Pérot resonance condition and, thus, the variation of slab thickness, and moreover, a weaker gain could lead to a stronger enhancement for light emission. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Chen, Ruoxi Chen, Jialin Gong, Zheng Zhang, Xinyan Zhu, Xingjian Yang, Yi Kaminer, Ido Chen, Hongsheng Zhang, Baile Lin, Xiao |
| format |
Article |
| author |
Chen, Ruoxi Chen, Jialin Gong, Zheng Zhang, Xinyan Zhu, Xingjian Yang, Yi Kaminer, Ido Chen, Hongsheng Zhang, Baile Lin, Xiao |
| author_sort |
Chen, Ruoxi |
| title |
Free-electron Brewster-transition radiation |
| title_short |
Free-electron Brewster-transition radiation |
| title_full |
Free-electron Brewster-transition radiation |
| title_fullStr |
Free-electron Brewster-transition radiation |
| title_full_unstemmed |
Free-electron Brewster-transition radiation |
| title_sort |
free-electron brewster-transition radiation |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170088 |
| _version_ |
1779156564605665280 |