Nonlinear frequency conversion in optical nanoantennas and metasurfaces: materials evolution and fabrication
Nonlinear frequency conversion is one of the most fundamental processes in nonlinear optics. It has a wide range of applications in our daily lives, including novel light sources, sensing, and information processing. It is usually assumed that nonlinear frequency conversion requires large crystals t...
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Institue of Optics and Electronics, Chinese Academy of Sciences
2018
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oai:doaj.org-article:a72fc4a95f104bf6a3b0f5d4a75f0d3b2021-11-11T10:06:28ZNonlinear frequency conversion in optical nanoantennas and metasurfaces: materials evolution and fabrication2096-457910.29026/oea.2018.180021https://doaj.org/article/a72fc4a95f104bf6a3b0f5d4a75f0d3b2018-10-01T00:00:00Zhttp://www.oejournal.org/article/doi/10.29026/oea.2018.180021https://doaj.org/toc/2096-4579Nonlinear frequency conversion is one of the most fundamental processes in nonlinear optics. It has a wide range of applications in our daily lives, including novel light sources, sensing, and information processing. It is usually assumed that nonlinear frequency conversion requires large crystals that gradually accumulate a strong effect. However, the large size of nonlinear crystals is not compatible with the miniaturisation of modern photonic and optoelectronic systems. Therefore, shrinking the nonlinear structures down to the nanoscale, while keeping favourable conversion efficiencies, is of great importance for future photonics applications. In the last decade, researchers have studied the strategies for enhancing the nonlinear efficiencies at the nanoscale, e.g. by employing different nonlinear materials, resonant couplings and hybridization techniques. In this paper, we provide a compact review of the nanomaterials-based efforts, ranging from metal to dielectric and semiconductor nanostructures, including their relevant nanofabrication techniques.Rahmani MohsenLeo GiuseppeBrener IgalZayats Anatoly V.Maier Stefan A.Angelis Costantino DeTan HoeGili Valerio FlavioKarouta FouadOulton RupertVora KaushalLysevych MykhayloStaude IsabelleXu LeiMiroshnichenko Andrey E.Jagadish ChennupatiNeshev Dragomir N.Institue of Optics and Electronics, Chinese Academy of Sciencesarticlenonlinear nanophotonicsmetallic nanoantennasdielectric nanoantennasⅲ-ⅴ semiconductor nanoantennananofabricationOptics. LightQC350-467ENOpto-Electronic Advances, Vol 1, Iss 10, Pp 180021-1-180021-12 (2018) |
| institution |
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| collection |
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| language |
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| topic |
nonlinear nanophotonics metallic nanoantennas dielectric nanoantennas ⅲ-ⅴ semiconductor nanoantenna nanofabrication Optics. Light QC350-467 |
| spellingShingle |
nonlinear nanophotonics metallic nanoantennas dielectric nanoantennas ⅲ-ⅴ semiconductor nanoantenna nanofabrication Optics. Light QC350-467 Rahmani Mohsen Leo Giuseppe Brener Igal Zayats Anatoly V. Maier Stefan A. Angelis Costantino De Tan Hoe Gili Valerio Flavio Karouta Fouad Oulton Rupert Vora Kaushal Lysevych Mykhaylo Staude Isabelle Xu Lei Miroshnichenko Andrey E. Jagadish Chennupati Neshev Dragomir N. Nonlinear frequency conversion in optical nanoantennas and metasurfaces: materials evolution and fabrication |
| description |
Nonlinear frequency conversion is one of the most fundamental processes in nonlinear optics. It has a wide range of applications in our daily lives, including novel light sources, sensing, and information processing. It is usually assumed that nonlinear frequency conversion requires large crystals that gradually accumulate a strong effect. However, the large size of nonlinear crystals is not compatible with the miniaturisation of modern photonic and optoelectronic systems. Therefore, shrinking the nonlinear structures down to the nanoscale, while keeping favourable conversion efficiencies, is of great importance for future photonics applications. In the last decade, researchers have studied the strategies for enhancing the nonlinear efficiencies at the nanoscale, e.g. by employing different nonlinear materials, resonant couplings and hybridization techniques. In this paper, we provide a compact review of the nanomaterials-based efforts, ranging from metal to dielectric and semiconductor nanostructures, including their relevant nanofabrication techniques. |
| format |
article |
| author |
Rahmani Mohsen Leo Giuseppe Brener Igal Zayats Anatoly V. Maier Stefan A. Angelis Costantino De Tan Hoe Gili Valerio Flavio Karouta Fouad Oulton Rupert Vora Kaushal Lysevych Mykhaylo Staude Isabelle Xu Lei Miroshnichenko Andrey E. Jagadish Chennupati Neshev Dragomir N. |
| author_facet |
Rahmani Mohsen Leo Giuseppe Brener Igal Zayats Anatoly V. Maier Stefan A. Angelis Costantino De Tan Hoe Gili Valerio Flavio Karouta Fouad Oulton Rupert Vora Kaushal Lysevych Mykhaylo Staude Isabelle Xu Lei Miroshnichenko Andrey E. Jagadish Chennupati Neshev Dragomir N. |
| author_sort |
Rahmani Mohsen |
| title |
Nonlinear frequency conversion in optical nanoantennas and metasurfaces: materials evolution and fabrication |
| title_short |
Nonlinear frequency conversion in optical nanoantennas and metasurfaces: materials evolution and fabrication |
| title_full |
Nonlinear frequency conversion in optical nanoantennas and metasurfaces: materials evolution and fabrication |
| title_fullStr |
Nonlinear frequency conversion in optical nanoantennas and metasurfaces: materials evolution and fabrication |
| title_full_unstemmed |
Nonlinear frequency conversion in optical nanoantennas and metasurfaces: materials evolution and fabrication |
| title_sort |
nonlinear frequency conversion in optical nanoantennas and metasurfaces: materials evolution and fabrication |
| publisher |
Institue of Optics and Electronics, Chinese Academy of Sciences |
| publishDate |
2018 |
| url |
https://doaj.org/article/a72fc4a95f104bf6a3b0f5d4a75f0d3b |
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