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Left-handedness in the balanced/unbalanced resonance conditions of a quantized composite right-left handed transmission line
The European Physical Journal B ( IF 1.6 ) Pub Date : 2020-05-04 , DOI: 10.1140/epjb/e2020-10046-1
Xiao-Jing Wei , Shun-Cai Zhao

Abstract

Left-handedness signifies negative permittivity (εr) and permeability (μr) in the same frequency band. The εr and μr are evaluated in a quantized composite right-left handed transmission line (CRLH-TL), and the frequency band for left-handedness is also valuated in the balanced resonance (LrCl = LlCr) and unbalanced resonance (LlCrLrCl) cases in the displaced squeezed Fock state. The results show that the balanced resonance plays an important role in bandwidth and achieving for left-handedness. This displays some quantum mechanical behaviors and proposes a new potential approach to wider frequency band left-handedness for the quantized CRLH-TL.

Graphical abstract



中文翻译:

量化复合左右手传输线在平衡/不平衡共振条件下的左手性

摘要

左撇子表示负介电常数(ε - [R )和导磁率(μ - [R )在相同的频带。的ε - [Rμ - [R在一个量化的合成右左手传输线路(CRLH-TL)进行评估,以及用于左利手的频带也被在平衡共振计价(大号ř ç=大号Ç - [R )和不平衡共振(L l C rL r C l)在流离失所的情况下挤压福克州。结果表明,平衡共振在带宽和左撇子的实现中起着重要作用。这显示了一些量子力学行为,并为量化的CRLH-TL提出了一种更宽频带左手性的新潜在方法。

图形概要

更新日期:2020-05-04
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