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Tunneling effect in cavity-resonator-coupled arrays

Tunneling effect in cavity-resonator-coupled arrays
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摘要 The quantum tunneling effect (QTE) in a cavity-resonator-coupled (CRC) array was analytically and numerically investigated. The underlying mechanism was interpreted by treating electromagnetic waves as photons, and then was generalized to acoustic waves and matter waves. It is indicated that for the three kinds of waves, the QTE can be excited by cavity resonance in a CRC array, resulting in sub-wavelength transparency through the narrow splits between cavities. This opens up opportunities for designing new types of crystals based on CRC arrays, which may find potential applications such as quantum devices, micro-optic transmission, and acoustic manipulation. The quantum tunneling effect (QTE) in a cavity-resonator-coupled (CRC) array was analytically and numerically investigated. The underlying mechanism was interpreted by treating electromagnetic waves as photons, and then was generalized to acoustic waves and matter waves. It is indicated that for the three kinds of waves, the QTE can be excited by cavity resonance in a CRC array, resulting in sub-wavelength transparency through the narrow splits between cavities. This opens up opportunities for designing new types of crystals based on CRC arrays, which may find potential applications such as quantum devices, micro-optic transmission, and acoustic manipulation.
作者 马华 屈绍波 梁昌红 张介秋 徐卓 王甲富
机构地区 Electronic Materials Research Laboratory The College of Science The College of Electronic Engineering
出处 《Chinese Physics B》 SCIE EI CAS CSCD 2013年第5期536-539,共4页 中国物理B(英文版)
关键词 quantum tunneling effect surface plasmon cavity-resonator photonic crystal quantum tunneling effect, surface plasmon, cavity-resonator, photonic crystal
分类号 TN629.1 [电子电信—电路与系统]
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Chinese Physics B
2013年 第5期

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