Second-order nonlinear optical metamaterials: ABC-type nanolaminates

L. Alloatti; C. Kieninger; A. Froelich; M. Lauermann; T. Frenzel; K. Koehnle; W. Freude; J. Leuthold; M. Wegener; C. Koos

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Second-order nonlinear optical metamaterials: ABC-type nanolaminates

机译：二阶非线性光学超材料：ABC型纳米层压板

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We demonstrate a concept for second-order nonlinear metamaterials that can be obtained from non-metallic centrosymmetric constituents with inherently low optical absorption. The concept is based on iterative atomic-layer deposition of three different materials, A = Al_2O_3, B = TiO_2, and C = HfO_2. The centrosymmetry of the resulting ABC stack is broken since the ABC and the inverted CBA sequences are not equivalent-a necessary condition for non-zero second-order nonlinearity. In our experiments, we find that the bulk second-order nonlinear susceptibility depends on the density of interfaces, leading to a nonlinear susceptibility of 0.26 pm/V at a wavelength of 800 nm. ABC-type nanolaminates can be deposited on virtually any substrate and offer a promising route towards engineering of second-order optical nonlinearities at both infrared and visible wavelengths.

机译：我们演示了一种二阶非线性超材料的概念，该材料可以从固有的低光吸收性的非金属中心对称成分中获得。该概念基于三种不同材料的迭代原子层沉积，即A = Al_2O_3，B = TiO_2和C = HfO_2。由于ABC和反转的CBA序列不相等，因此，所得ABC堆栈的中心对称性被破坏了，这是非零阶二阶非线性的必要条件。在我们的实验中，我们发现整体二阶非线性磁化率取决于界面的密度，导致在800 nm波长处的非线性磁化率为0.26 pm / V。 ABC型纳米层压板几乎可以沉积在任何基材上，并为在红外和可见光波长下进行二阶光学非线性的工程化提供了一条有希望的途径。

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来源
《Applied Physics Letters》 |2015年第12期|121903.1-121903.4|共4页
作者
L. Alloatti; C. Kieninger; A. Froelich; M. Lauermann; T. Frenzel; K. Koehnle; W. Freude; J. Leuthold; M. Wegener; C. Koos;
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作者单位

Institute of Photonics and Quantum Electronics (IPQ), Karlsruhe Institute of Technology (KIT), 76128 Karlsruhe, Germany ,Research Laboratory of Electronics, Massachusetts Institute of Technology (MIT), 77 Massachusetts Ave. 36-477, Cambridge, Massachusetts 02139, USA;

Institute of Photonics and Quantum Electronics (IPQ), Karlsruhe Institute of Technology (KIT), 76128 Karlsruhe, Germany;

Institute of Applied Physics, Karlsruhe Institute of Technology (KIT), 76128 Karlsruhe, Germany ,DFG-Center for Functional Nanostructures (CFN), Karlsruhe Institute of Technology (KIT), 76128 Karlsruhe, Germany ,Institute of Nanotechnology, Karlsruhe Institute of Technology (KIT), 76021 Karlsruhe, Germany;

Institute of Photonics and Quantum Electronics (IPQ), Karlsruhe Institute of Technology (KIT), 76128 Karlsruhe, Germany;

Institute of Applied Physics, Karlsruhe Institute of Technology (KIT), 76128 Karlsruhe, Germany;

Institute of Photonics and Quantum Electronics (IPQ), Karlsruhe Institute of Technology (KIT), 76128 Karlsruhe, Germany;

Institute of Photonics and Quantum Electronics (IPQ), Karlsruhe Institute of Technology (KIT), 76128 Karlsruhe, Germany ,Institute for Microstructure Technology (IMT), Karlsruhe Institute of Technology (KIT), 76344 Eggenstein-Leopoldshafen, Germany;

Institute of Photonics and Quantum Electronics (IPQ), Karlsruhe Institute of Technology (KIT), 76128 Karlsruhe, Germany ,DFG-Center for Functional Nanostructures (CFN), Karlsruhe Institute of Technology (KIT), 76128 Karlsruhe, Germany ,Institute for Microstructure Technology (IMT), Karlsruhe Institute of Technology (KIT), 76344 Eggenstein-Leopoldshafen, Germany,Institute of Electromagnetic Fields, Eidgenoessische Technische Hochschule (ETH), ETZ K 81, Gloriastrasse 35, 8092 Zuerich, Switzerland;

Institute of Applied Physics, Karlsruhe Institute of Technology (KIT), 76128 Karlsruhe, Germany ,DFG-Center for Functional Nanostructures (CFN), Karlsruhe Institute of Technology (KIT), 76128 Karlsruhe, Germany ,Institute of Nanotechnology, Karlsruhe Institute of Technology (KIT), 76021 Karlsruhe, Germany;

Institute of Photonics and Quantum Electronics (IPQ), Karlsruhe Institute of Technology (KIT), 76128 Karlsruhe, Germany ,DFG-Center for Functional Nanostructures (CFN), Karlsruhe Institute of Technology (KIT), 76128 Karlsruhe, Germany ,Institute for Microstructure Technology (IMT), Karlsruhe Institute of Technology (KIT), 76344 Eggenstein-Leopoldshafen, Germany;

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入库时间 2022-08-18 03:15:19

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1. Second-Order Nonlinear Optical Properties ofMetal Nanostructures and Metamaterials [J] . FU XIANG WANG, FRANCISCO J. RODRIGUEZ, HANNU HUSU, Nonlinear Optics, Quantum Optics . 2010,第1a4期

机译：金属纳米结构和超材料的二阶非线性光学性质
2. Nonlinear optical process of second-order nonlinear optical susceptibility chi((2))(133) in an organic nonlinear optical crystal DAST [J] . Takeya Kei, Kamei Takayuki, Kawase Kodo, Optics Letters . 2020,第19期

机译：二阶非线性光学敏感性的非线性光学过程Chi（（2））（133）在有机非线性光学晶体荷载中
3. Enhancement of the third-order optical nonlinearity in ZnO/Al_2O_3 nanolaminates fabricated by atomic layer deposition [J] . L. Karvonen, A. Saeynaetjoki, Y. Chen, Applied Physics Letters . 2013,第3期

机译：原子层沉积制备的ZnO / Al_2O_3纳米层合物中三阶光学非线性的增强
4. Nanolaminate structures fabricated by ALD for reducing propagation losses and enhancing the third-order optical nonlinearities [C] . Lasse Karvonen, Tapani Alasaarela, Henri Jussila, Optical components and materials XI . 2014

机译：ALD制造的纳米层压结构，可减少传播损耗并增强三阶光学非线性
5. Organic materials for second-order nonlinear optics: Approaches to optimizing and stabilizing nonlinear optical effects. [D] . Lin, Hong-Cheu. 1992

机译：用于二阶非线性光学的有机材料：优化和稳定非线性光学效应的方法。
6. Electronic Metamaterials with Tunable Second-order Optical Nonlinearities [O] . Hung-Hsi Lin, Felipe Vallini, Mu-Han Yang, -1

机译：具有可调二阶光学非线性的电子超材料
7. Second-order nonlinear optical metamaterials: ABC-type nanolaminates [O] . Alloatti, Luca, Kieninger, Clemens, Froelich, Andreas, 2015

机译：二阶非线性光学超材料：aBC型纳米层压材料
8. Designed Ultrafast Optical Nonlinearity in a Plasmonic Nanorod Metamaterial Enhanced by Nonlocality [R] . Wurtz, G. A., Pollard, R., Hendren, W., 2011

机译：由非局域性增强的等离子体纳米棒超材料设计的超快光学非线性

Second-order nonlinear optical metamaterials: ABC-type nanolaminates

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