Roadmap on multimode light shaping
Our ability to generate new distributions of light has been remarkably enhanced in recent years. At the most fundamental level, these light patterns are obtained by ingeniously combining different electromagnetic modes. Interestingly, the modal superposition occurs in the spatial, temporal as well a...
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| creator | Piccardo, Marco Ginis, Vincent bes, Andrew Mahler, Simon Friesem, Asher A Davidson, Nir Ren, Haoran Dorrah, Ahmed H Capasso, Federico Dullo, Firehun T Ahluwalia, Balpreet S Ambrosio, Antonio Gigan, Sylvain Treps, Nicolas Hiekkamäki, Markus Fickler, Robert Kues, Michael Moss, David Morandotti, Roberto Riemensberger, Johann Kippenberg, Tobias J Faist, Jérôme Scalari, Giacomo Picqué, Nathalie Hänsch, Theodor W Cerullo, Giulio Manzoni, Cristian Lugiato, Luigi A Brambilla, Massimo Columbo, Lorenzo Gatti, Alessandra Prati, Franco Abbas Shiri Abouraddy, Ayman F Alù, Andrea Galiffi, Emanuele Pendry, J B Huidobro, Paloma A |
| description | Our ability to generate new distributions of light has been remarkably enhanced in recent years. At the most fundamental level, these light patterns are obtained by ingeniously combining different electromagnetic modes. Interestingly, the modal superposition occurs in the spatial, temporal as well as spatio-temporal domain. This generalized concept of structured light is being applied across the entire spectrum of optics: generating classical and quantum states of light, harnessing linear and nonlinear light-matter interactions, and advancing applications in microscopy, spectroscopy, holography, communication, and synchronization. This Roadmap highlights the common roots of these different techniques and thus establishes links between research areas that complement each other seamlessly. We provide an overview of all these areas, their backgrounds, current research, and future developments. We highlight the power of multimodal light manipulation and want to inspire new eclectic approaches in this vibrant research community. |
| doi_str_mv | 10.48550/arxiv.2104.03550 |
| format | Article |
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At the most fundamental level, these light patterns are obtained by ingeniously combining different electromagnetic modes. Interestingly, the modal superposition occurs in the spatial, temporal as well as spatio-temporal domain. This generalized concept of structured light is being applied across the entire spectrum of optics: generating classical and quantum states of light, harnessing linear and nonlinear light-matter interactions, and advancing applications in microscopy, spectroscopy, holography, communication, and synchronization. This Roadmap highlights the common roots of these different techniques and thus establishes links between research areas that complement each other seamlessly. We provide an overview of all these areas, their backgrounds, current research, and future developments. 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| subjects | Light Mode superposition method Physics - Optics Synchronism |
| title | Roadmap on multimode light shaping |
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