Soft surfaces and enhanced nonlinearity enabled via epsilon-near-zero media doped with zero-area perfect electric conductor inclusions

Nahvi Ehsan; Liberal Inigo; Engheta Nader

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Soft surfaces and enhanced nonlinearity enabled via epsilon-near-zero media doped with zero-area perfect electric conductor inclusions

机译：通过epsilon - 近零介质掺杂有零区域完美电导体夹杂物的柔软表面和增强的非线性

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Introducing a dielectric inclusion inside an epsilon-nearzero (ENZ) host has been shown to dramatically affect the effective permeability of the host for a TM-polarized incident wave, a concept coined as photonic doping [Science 355, 1058 (2017)]. Here, we theoretically study the prospect of doping the ENZ host with infinitesimally thin perfect electric conductor (PEC) inclusions, which we call "zero-area" PEC dopants. First, we theoretically demonstrate that zero-area PEC dopants enable the design of soft surfaces with an arbitrary cross-sectional geometry. Second, we illustrate the possibility of engineering the PEC dopants with the goal of transforming the electric field distribution inside the ENZ while maintaining a spatially invariant magnetic field. We exploit this property to enhance the effective nonlinearity of the ENZ host. (C) 2020 Optical Society of America

机译：在epsilon-accizero（eNZ）主机内引入介电包裹件已显示出显着影响TM极化入射波的宿主的有效渗透性，该概念包括作为光子掺杂的概念[Science 355,1058（2017）]。在这里，我们从理论上研究了用无限薄的完美电导（PEC）夹杂物掺杂enz主机的前景，我们称之为“零区”PEC掺杂剂。首先，我们理论上证明零区PEC掺杂剂能够设计具有任意横截面几何形状的软表面。其次，我们说明了在保持空间不变的磁场的同时改变enz内部的电场分布的目的的工程掺杂剂的可能性。我们利用此属性来增强enz主机的有效非线性。（c）2020美国光学学会

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《Optics Letters》 |2020年第16期|共4页
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Nahvi Ehsan; Liberal Inigo; Engheta Nader;
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Univ Penn Dept Elect &

Syst Engn Philadelphia PA 19104 USA;

Univ Penn Dept Elect &

Syst Engn Philadelphia PA 19104 USA;

Univ Penn Dept Elect &

Syst Engn Philadelphia PA 19104 USA;

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正文语种 eng
中图分类计量学;光学;
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专利

1. Soft surfaces and enhanced nonlinearity enabled via epsilon-near-zero media doped with zero-area perfect electric conductor inclusions [J] . Nahvi Ehsan, Liberal Inigo, Engheta Nader Optics Letters . 2020,第16期

机译：通过epsilon - 近零介质掺杂有零区域完美电导体夹杂物的柔软表面和增强的非线性
2. Equivalent perfect magnetic conductor based on epsilon-near-zero media [J] . Wang Tingting, Luo Jie, Gao Lei, Applied Physics Letters . 2014,第21期

机译：基于ε-近零介质的等效完美磁导体
3. Equivalent perfect magnetic conductor based on epsilon-near-zero media [J] . Tingting Wang, Jie Luo, Lei Gao, Applied Physics Letters . 2014,第21期

机译：基于ε-近零介质的等效完美磁导体
4. Resonance Splitting and Enhanced Optical Nonlinearities in ITO-Based Epsilon-Near-Zero Metasurface with Cross-Shaped Nanoantennas [C] . Cong Liu, Kai Pang, Karapet Manukyan, Conference on Lasers and Electro-Optics . 2019

机译：带有交叉形纳米天线的基于ITO的Epsilon-近零超颖表面的共振分裂和增强的光学非线性
5. Nanocrystalline Metal Enabled Conductors for Enhanced Strength-to-Weight Aerospace Electrical Wiring. [D] . Winfield, Ian. 2010

机译：用于增强强度重量航空航天电气布线的纳米晶金属导体。
6. Enhanced thermoelectric performance of Nb-doped SrTiO3 by nano-inclusion with low thermal conductivity [O] . Ning Wang, Haijun Chen, Hongcai He, -1

机译：低导热系数的纳米夹杂物增强了Nb掺杂SrTiO3的热电性能
7. Dynamically controlling local field enhancement at an epsilon-near-zero/dielectric interface via nonlinearities of an epsilon-near-zero medium [O] . Alexander Baev, Paras N. Prasad, M. Zahirul Alam, 2020

机译：通过epsilon - 近零介质的非线性动态地控制epsilon近零/介电接口的局部场增强

Soft surfaces and enhanced nonlinearity enabled via epsilon-near-zero media doped with zero-area perfect electric conductor inclusions

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