Roadmap on spatiotemporal light fields
Spatiotemporal sculpturing of light pulse with ultimately sophisticated structures represents a major goal of the everlasting pursue of ultra-fast information transmission and processing as well as ultra-intense energy concentration and extraction. It also holds the key to unlock new extraordinary f...
| Main Authors: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Format: | Journal Article |
| Language: | English |
| Published: |
2024
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| Online Access: | https://hdl.handle.net/10356/174190 |
| _version_ | 1811682605445152768 |
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| author | Shen, Yijie Zhan, Qiwen Wright, Logan G. Christodoulides, Demetrios N. Wise, Frank W. Willner, Alan E. Zou, Kai-Heng Zhao, Zhe Porras, Miguel A. Chong, Andy Wan, Chenhao Bliokh, Konstantin Y. Liao, Chen-Ting Hernández-García, Carlos Murnane, Margaret Yessenov, Murat Abouraddy, Ayman F. Wong, Liang Jie Go, Michael Kumar, Suraj Guo, Cheng Fan, Shanhui Papasimakis, Nikitas Zheludev, Nikolay I. Chen, Lu Zhu, Wenqi Agrawal, Amit Mounaix, Mickael Fontaine, Nicolas K. Carpenter, Joel Jolly, Spencer W. Dorrer, Christophe Alonso, Benjamín Lopez-Quintas, Ignacio López-Ripa, Miguel Sola, Íñigo J. Huang, Junyi Zhang, Hongliang Ruan, Zhichao Dorrah, Ahmed H. Capasso, Federico Forbes, Andrew |
| author2 | School of Electrical and Electronic Engineering |
| author_facet | School of Electrical and Electronic Engineering Shen, Yijie Zhan, Qiwen Wright, Logan G. Christodoulides, Demetrios N. Wise, Frank W. Willner, Alan E. Zou, Kai-Heng Zhao, Zhe Porras, Miguel A. Chong, Andy Wan, Chenhao Bliokh, Konstantin Y. Liao, Chen-Ting Hernández-García, Carlos Murnane, Margaret Yessenov, Murat Abouraddy, Ayman F. Wong, Liang Jie Go, Michael Kumar, Suraj Guo, Cheng Fan, Shanhui Papasimakis, Nikitas Zheludev, Nikolay I. Chen, Lu Zhu, Wenqi Agrawal, Amit Mounaix, Mickael Fontaine, Nicolas K. Carpenter, Joel Jolly, Spencer W. Dorrer, Christophe Alonso, Benjamín Lopez-Quintas, Ignacio López-Ripa, Miguel Sola, Íñigo J. Huang, Junyi Zhang, Hongliang Ruan, Zhichao Dorrah, Ahmed H. Capasso, Federico Forbes, Andrew |
| author_sort | Shen, Yijie |
| collection | NTU |
| description | Spatiotemporal sculpturing of light pulse with ultimately sophisticated structures represents a major goal of the everlasting pursue of ultra-fast information transmission and processing as well as ultra-intense energy concentration and extraction. It also holds the key to unlock new extraordinary fundamental physical effects. Traditionally, spatiotemporal light pulses are always treated as spatiotemporally separable wave packet as solution of the Maxwell’s equations. In the past decade, however, more generalized forms of spatiotemporally nonseparable solution started to emerge with growing importance for their striking physical effects. This roadmap intends to highlight the recent advances in the creation and control of increasingly complex spatiotemporally sculptured pulses, from spatiotemporally separable to complex nonseparable states, with diverse geometric and topological structures, presenting a bird’s eye viewpoint on the zoology of spatiotemporal light fields and the outlook of future trends and open challenges. |
| first_indexed | 2024-10-01T03:59:30Z |
| format | Journal Article |
| id | ntu-10356/174190 |
| institution | Nanyang Technological University |
| language | English |
| last_indexed | 2024-10-01T03:59:30Z |
| publishDate | 2024 |
| record_format | dspace |
| spelling | ntu-10356/1741902024-03-22T15:40:37Z Roadmap on spatiotemporal light fields Shen, Yijie Zhan, Qiwen Wright, Logan G. Christodoulides, Demetrios N. Wise, Frank W. Willner, Alan E. Zou, Kai-Heng Zhao, Zhe Porras, Miguel A. Chong, Andy Wan, Chenhao Bliokh, Konstantin Y. Liao, Chen-Ting Hernández-García, Carlos Murnane, Margaret Yessenov, Murat Abouraddy, Ayman F. Wong, Liang Jie Go, Michael Kumar, Suraj Guo, Cheng Fan, Shanhui Papasimakis, Nikitas Zheludev, Nikolay I. Chen, Lu Zhu, Wenqi Agrawal, Amit Mounaix, Mickael Fontaine, Nicolas K. Carpenter, Joel Jolly, Spencer W. Dorrer, Christophe Alonso, Benjamín Lopez-Quintas, Ignacio López-Ripa, Miguel Sola, Íñigo J. Huang, Junyi Zhang, Hongliang Ruan, Zhichao Dorrah, Ahmed H. Capasso, Federico Forbes, Andrew School of Electrical and Electronic Engineering School of Physical and Mathematical Sciences Centre for Disruptive Photonic Technologies The Photonics Institute Physics Spatiotemporal Structured light Spatiotemporal sculpturing of light pulse with ultimately sophisticated structures represents a major goal of the everlasting pursue of ultra-fast information transmission and processing as well as ultra-intense energy concentration and extraction. It also holds the key to unlock new extraordinary fundamental physical effects. Traditionally, spatiotemporal light pulses are always treated as spatiotemporally separable wave packet as solution of the Maxwell’s equations. In the past decade, however, more generalized forms of spatiotemporally nonseparable solution started to emerge with growing importance for their striking physical effects. This roadmap intends to highlight the recent advances in the creation and control of increasingly complex spatiotemporally sculptured pulses, from spatiotemporally separable to complex nonseparable states, with diverse geometric and topological structures, presenting a bird’s eye viewpoint on the zoology of spatiotemporal light fields and the outlook of future trends and open challenges. Ministry of Education (MOE) Nanyang Technological University National Research Foundation (NRF) Published version 2. The authors wish to thank NTT Research for their financial and technical support. This effort was sponsored, in part, by the Department of the Navy, Office of Naval Research under ONR Award Number N00014-20-1-2789. 3. ONR through a MURI N00014-20-1-2789; Vannevar Bush Faculty Fellowship by the Basic Research Office of the ASD/R&E and funded by ONR (N00014-16-1-2813); DURIP (FA9550-20-1-0152). 4. I acknowledge support from Project PID2021-122711NB-C21 of the Spanish Ministry of Science an Innovation. 5. This work is supported by NSFC (#92050202, #61875245), States Administration of Foreign Experts Affairs (G2022013001), Shanghai Science and Technology Committee (#19060502500), Shanghai Administration of Foreign Experts Affairs (21WZ2503100, 22WZ2502700), Wuhan Science and Technology Bureau (2020010601012169), and the National Research Foundation of Korea (NRF) funded by the Korea government (MSIT) (Grant No. 2022R1A2C1091890). 7. The JILA authors acknowledge funding from the U.S. Department of Energy (DOE) BES Award No. DE-FG02-99ER14982 for the development of the new characterization technique, and a MURI grant from the Air Force Office of Scientific Research under Award No. FA9550-16-1-0121 for the experimental setup. C-T L acknowledges support by the U.S. Department of Energy (DOE), Office of Science, Office of Biological and Environmental Research (BER), under Award No. DE-SC0023314. C H-G acknowledges support from Ministerio de Ciencia e Innovación, y Universidades, Spain for a Ramón y Cajal contract (RYC-2017-22745), and the European Research Council (ERC) under the European Union’s Horizon 2020 Research and Innovation Program (Grant Agreement No. 851201). 8. The work was funded by the U.S. Office of Naval Research (ONR) under Contract N00014-17-1-2458 and ONR MURI Contract N00014-20-1-2789. 9. This work was supported by the National Research Foundation (Grant No. NRF2020-NRF-ISF004-3525). L J W acknowledges the support of the Nanyang Assistant Professorship start-up grant. 10. This work is supported by a Vannevar Bush Faculty Fellowship from the U. S. Department of Defense (Grant No. N00014-17-1-3030), by the U. S. Office of Naval Research (Grant No. N00014-20-1-2450), and by a MURI project from the U.S. Air Force Office of Scientific Research (FA9550-18-1-0379). 11. This work was supported by the UK Engineering and Physical Sciences Research Council (Grant No. EP/ M009122/1), MOE Singapore (Grant No. MOE2016-T3- 1-006), the European Research Council (Advanced Grant FLEET-786 851, Funder ID https://doi-org.remotexs.ntu.edu.sg/10.13039/501100000781) and the Defence Advanced Research Projects Agency (DARPA) under the Nascent Light Matter Interactions programme. 12. L C and W Z acknowledge support under the Cooperative Research Agreement between the University of Maryland and NIST-PML, Award No. 70NANB10H193. 13. The authors acknowledge the Discovery (DP170101400, DE180100009, DE210100934) program of the Australian Research Council. 14. S W J has received funding from the European Union’s Horizon 2020 research and innovation program under the Marie Skłodowska-Curie Grant Agreement No. 801 505. The work of CD is supported by the Department of Energy National Nuclear Security Administration under Award Number DE-NA0003856, the University of Rochester, and the New York State Energy Research and Development Authority. 15. The authors acknowledge funding from Junta de Castilla y León and European Regional Development Fund (SA136-P20); Ministerio de Economía y Competitividad (EQC2018-004117-P); Ministerio de Ciencia, Innovación y Universidades (PID2020-119818GB-I00); H2020 European Research Council (851201). M López-Ripa thanks the University of Salamanca for the PhD contract. 16. The authors acknowledge funding through the National Key Research and Development Program of China (Grant No. 2022YFA1405200), the National Natural Science Foundation of China (NSFC Grants No. 12174340), the Open Foundation of the State Key Laboratory of Modern Optical Instrumentation, and the Open Research Program of Key Laboratory of 3D Micro/Nano Fabrication and Characterization of Zhejiang Province. 17. F C and A H D acknowledge financial support from NSF (Grant No. 1541959), ONR (Grant No. N00014-20-1-2450), AFOSR (Grant No. FA9550-22-1-0243), and NSERC (Grant No. PDF-533013-2019). 2024-03-19T05:09:06Z 2024-03-19T05:09:06Z 2023 Journal Article Shen, Y., Zhan, Q., Wright, L. G., Christodoulides, D. N., Wise, F. W., Willner, A. E., Zou, K., Zhao, Z., Porras, M. A., Chong, A., Wan, C., Bliokh, K. Y., Liao, C., Hernández-García, C., Murnane, M., Yessenov, M., Abouraddy, A. F., Wong, L. J., Go, M., ...Forbes, A. (2023). Roadmap on spatiotemporal light fields. Journal of Optics, 25(9), 093001-. https://dx.doi.org/10.1088/2040-8986/ace4dc 2040-8978 https://hdl.handle.net/10356/174190 10.1088/2040-8986/ace4dc 2-s2.0-85166732291 9 25 093001 en NRF2020-NRF-ISF004-3525 MOE2016-T3-1-006 Journal of Optics © 2023 The Author(s). Published by IOP Publishing Ltd. Original content from this work may be used under the terms of the Creative Commons Attribution 4.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI. application/pdf |
| spellingShingle | Physics Spatiotemporal Structured light Shen, Yijie Zhan, Qiwen Wright, Logan G. Christodoulides, Demetrios N. Wise, Frank W. Willner, Alan E. Zou, Kai-Heng Zhao, Zhe Porras, Miguel A. Chong, Andy Wan, Chenhao Bliokh, Konstantin Y. Liao, Chen-Ting Hernández-García, Carlos Murnane, Margaret Yessenov, Murat Abouraddy, Ayman F. Wong, Liang Jie Go, Michael Kumar, Suraj Guo, Cheng Fan, Shanhui Papasimakis, Nikitas Zheludev, Nikolay I. Chen, Lu Zhu, Wenqi Agrawal, Amit Mounaix, Mickael Fontaine, Nicolas K. Carpenter, Joel Jolly, Spencer W. Dorrer, Christophe Alonso, Benjamín Lopez-Quintas, Ignacio López-Ripa, Miguel Sola, Íñigo J. Huang, Junyi Zhang, Hongliang Ruan, Zhichao Dorrah, Ahmed H. Capasso, Federico Forbes, Andrew Roadmap on spatiotemporal light fields |
| title | Roadmap on spatiotemporal light fields |
| title_full | Roadmap on spatiotemporal light fields |
| title_fullStr | Roadmap on spatiotemporal light fields |
| title_full_unstemmed | Roadmap on spatiotemporal light fields |
| title_short | Roadmap on spatiotemporal light fields |
| title_sort | roadmap on spatiotemporal light fields |
| topic | Physics Spatiotemporal Structured light |
| url | https://hdl.handle.net/10356/174190 |
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