Controlling nanoscale optical transmission with dielectric metasurfaces at visible wavelengths
Recently, metasurfaces and metalenses have become an important subject in the domain of novel optical devices. Numerous nanostructures, with different fundamental principles, materials, and topologies, have been proposed, but general design rules for optimization of their efficiency are not well est...
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| Main Authors | , , , , |
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| Format | Conference Proceeding |
| Language | English |
| Published |
SPIE
20.02.2017
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| Online Access | Get full text |
| ISBN | 9781510606678 151060667X |
| ISSN | 0277-786X |
| DOI | 10.1117/12.2256030 |
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| Abstract | Recently, metasurfaces and metalenses have become an important subject in the domain of novel optical devices. Numerous nanostructures, with different fundamental principles, materials, and topologies, have been proposed, but general design rules for optimization of their efficiency are not well established yet. Particularly attractive are metasurfaces consisting of Huygens resonators since they offer precise control of the intensity and phase of the transmitted light. In this paper, we demonstrate a Huygens metasurface capable of focusing visible light. We study the impact of the layout of the lens on their efficiency by comparing two metalenses designs: concentric annular regions of equal width and constant phase, with concentric rings defined by individual nano-resonators. The latter provides a better approximation to the ideal phase profile and as a consequence, a high-efficiency lens. Metalenses with both designs were fabricated by e-beam lithography and characterized with a custom-built setup. Experimental results demonstrate that the design with fine discretization improves the lens efficiency by a factor of 2.6. |
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| AbstractList | Recently, metasurfaces and metalenses have become an important subject in the domain of novel optical devices. Numerous nanostructures, with different fundamental principles, materials, and topologies, have been proposed, but general design rules for optimization of their efficiency are not well established yet. Particularly attractive are metasurfaces consisting of Huygens resonators since they offer precise control of the intensity and phase of the transmitted light. In this paper, we demonstrate a Huygens metasurface capable of focusing visible light. We study the impact of the layout of the lens on their efficiency by comparing two metalenses designs: concentric annular regions of equal width and constant phase, with concentric rings defined by individual nano-resonators. The latter provides a better approximation to the ideal phase profile and as a consequence, a high-efficiency lens. Metalenses with both designs were fabricated by e-beam lithography and characterized with a custom-built setup. Experimental results demonstrate that the design with fine discretization improves the lens efficiency by a factor of 2.6. |
| Author | Czaplewski, David Cai, Haogang Roy, Tapashree Lopez, Daniel Mitra, Subrata |
| Author_xml | – sequence: 1 givenname: Tapashree surname: Roy fullname: Roy, Tapashree organization: Argonne National Lab. (United States) – sequence: 2 givenname: Haogang surname: Cai fullname: Cai, Haogang organization: Argonne National Lab. (United States) – sequence: 3 givenname: Subrata surname: Mitra fullname: Mitra, Subrata organization: Argonne National Lab. (United States) – sequence: 4 givenname: David surname: Czaplewski fullname: Czaplewski, David organization: Argonne National Lab. (United States) – sequence: 5 givenname: Daniel surname: Lopez fullname: Lopez, Daniel organization: Argonne National Lab. (United States) |
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| DOI | 10.1117/12.2256030 |
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| Editor | Koyama, Fumio Zhou, Weimin Chang-Hasnain, Connie J Faraon, Andrei |
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| Notes | Conference Location: San Francisco, California, United States Conference Date: 2017-01-28|2017-02-02 |
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| Snippet | Recently, metasurfaces and metalenses have become an important subject in the domain of novel optical devices. Numerous nanostructures, with different... |
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| Title | Controlling nanoscale optical transmission with dielectric metasurfaces at visible wavelengths |
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