Conformal spatiotemporal modulation enabled geometric frequency combs
The interaction between light and the time-varying medium exhibits non-Hermitian characteristics, leading to intriguing phenomena, such as parametric amplification, momentum gaps, and temporal refraction. In this study, we introduce the concept of the conformally evolved spatiotemporal modulation, w...
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sg-ntu-dr.10356-1809192024-11-05T00:49:24Z Conformal spatiotemporal modulation enabled geometric frequency combs Wu, Haotian Yang, Qianru Hu, Hao Zou, Linyang Wang, Xixi He, Jijun Pan, Shilong Zheng, Yuanjin Cui, Tie Jun Luo, Yu School of Electrical and Electronic Engineering Engineering Ambiguous peak suppression Conformal spatiotemporal modulation The interaction between light and the time-varying medium exhibits non-Hermitian characteristics, leading to intriguing phenomena, such as parametric amplification, momentum gaps, and temporal refraction. In this study, we introduce the concept of the conformally evolved spatiotemporal modulation, where the space- and time-dependent permittivity function ϵ (x,t) undergoes rescaling over time, i.e., ϵ (x,t + Δt) = ϵ (sx,st). In such systems, spatiotemporal interfaces are no longer modulated at a uniform speed, enabling us to generate a special type of geometric optical comb with exponentially distributed frequency spacing under monochromatic incidence. Compared with traditional linear frequency combs, these optical combs exhibit several distinct properties. First, the excitation of geometric harmonics can drastically amplify the output signal through cascade field enhancement with the appropriate modulation speeds. Second, the designed geometric comb showcases a significant reduction of ambiguous peaks in the autocorrelation, resulting in suppression of reverberation and resolution enhancement for radar detections. Agency for Science, Technology and Research (A*STAR) National Research Foundation (NRF) This work was sponsored by the funding support partially provided by A*STAR SERC AME program ‘Nanoantenna Spatial Light Modulator for Next - Generation Display Technologies (NSLM)’ under the grant No. A18A7b0058, the National Research Foundation Singapore Competitive Research Program under the grant No. NRF-CRP22-2019-0006 and NRF-CRP23-2019-0007, the National Key R & D Program of China (grant no. 2022YFA1404903), the National Natural Science Foundation of China (grant no. 62288101), and the Distinguished Professor Fund of Jiangsu Province(grant no. 1004-YQR24010). 2024-11-05T00:49:24Z 2024-11-05T00:49:24Z 2024 Journal Article Wu, H., Yang, Q., Hu, H., Zou, L., Wang, X., He, J., Pan, S., Zheng, Y., Cui, T. J. & Luo, Y. (2024). Conformal spatiotemporal modulation enabled geometric frequency combs. ACS Photonics, 11(8), 2992-3002. https://dx.doi.org/10.1021/acsphotonics.4c00029 2330-4022 https://hdl.handle.net/10356/180919 10.1021/acsphotonics.4c00029 2-s2.0-85197378783 8 11 2992 3002 en A18A7b0058 NRF-CRP22-2019-0006 NRF-CRP23-2019-0007 ACS Photonics © 2024 American Chemical Society. All rights reserved. |
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Engineering Ambiguous peak suppression Conformal spatiotemporal modulation |
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Engineering Ambiguous peak suppression Conformal spatiotemporal modulation Wu, Haotian Yang, Qianru Hu, Hao Zou, Linyang Wang, Xixi He, Jijun Pan, Shilong Zheng, Yuanjin Cui, Tie Jun Luo, Yu Conformal spatiotemporal modulation enabled geometric frequency combs |
| description |
The interaction between light and the time-varying medium exhibits non-Hermitian characteristics, leading to intriguing phenomena, such as parametric amplification, momentum gaps, and temporal refraction. In this study, we introduce the concept of the conformally evolved spatiotemporal modulation, where the space- and time-dependent permittivity function ϵ (x,t) undergoes rescaling over time, i.e., ϵ (x,t + Δt) = ϵ (sx,st). In such systems, spatiotemporal interfaces are no longer modulated at a uniform speed, enabling us to generate a special type of geometric optical comb with exponentially distributed frequency spacing under monochromatic incidence. Compared with traditional linear frequency combs, these optical combs exhibit several distinct properties. First, the excitation of geometric harmonics can drastically amplify the output signal through cascade field enhancement with the appropriate modulation speeds. Second, the designed geometric comb showcases a significant reduction of ambiguous peaks in the autocorrelation, resulting in suppression of reverberation and resolution enhancement for radar detections. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Wu, Haotian Yang, Qianru Hu, Hao Zou, Linyang Wang, Xixi He, Jijun Pan, Shilong Zheng, Yuanjin Cui, Tie Jun Luo, Yu |
| format |
Article |
| author |
Wu, Haotian Yang, Qianru Hu, Hao Zou, Linyang Wang, Xixi He, Jijun Pan, Shilong Zheng, Yuanjin Cui, Tie Jun Luo, Yu |
| author_sort |
Wu, Haotian |
| title |
Conformal spatiotemporal modulation enabled geometric frequency combs |
| title_short |
Conformal spatiotemporal modulation enabled geometric frequency combs |
| title_full |
Conformal spatiotemporal modulation enabled geometric frequency combs |
| title_fullStr |
Conformal spatiotemporal modulation enabled geometric frequency combs |
| title_full_unstemmed |
Conformal spatiotemporal modulation enabled geometric frequency combs |
| title_sort |
conformal spatiotemporal modulation enabled geometric frequency combs |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180919 |
| _version_ |
1816858952542978048 |