Saved in:
Bibliographic Details
Main Authors: Han, Youcai, Meng, Changhao, Rao, Zejin, Qian, Jie, Lv, Yiming, Zhu, Liping, Hu, CanMing, An, Zhenghua
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2404.11380
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866909172723875840
author Han, Youcai
Meng, Changhao
Rao, Zejin
Qian, Jie
Lv, Yiming
Zhu, Liping
Hu, CanMing
An, Zhenghua
author_facet Han, Youcai
Meng, Changhao
Rao, Zejin
Qian, Jie
Lv, Yiming
Zhu, Liping
Hu, CanMing
An, Zhenghua
contents Manipulation of wave propagation through open resonant systems has attracted tremendous interest. When accessible to the open system, the system under study is prone to tempering to out of equilibrium, and a lack of reciprocity is the rule rather than the exception. Open systems correspond to non-hermitian Hamiltonians with very unique properties such as resulting exceptional points and ideal isolation. Here, we have found a highly sensitive modulation for the intersection of resonant patch antennas with respect to cavity magnonic coupling by means of an open coupling system of three resonant modes. Two types of crossings are implemented in this study: the first type of crossing remotely controls the sharp switching of the transmission line 's transmittance, while regulating the repulsive behavior of its zero-reflection states. The second type of crossing corresponds to the modulation of non-reciprocal phase transitions, which enables a more desirable isolation effect. Three different coupling models are realized by a non-Hermitian scattering Hamiltonian, revealing distinct spatial overlaps between modes. This elucidates that dissipative coupling of at least two modes to the environment is crucial for non-reciprocal transport. Our work not only reveals the versatility of cavity magnonic systems but also provides a way to design functional devices for general wave optics using patch antenna crossings.
format Preprint
id arxiv_https___arxiv_org_abs_2404_11380
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Non-hermitian magnonic knobbing between electromagnetically induced reflection and transparancy
Han, Youcai
Meng, Changhao
Rao, Zejin
Qian, Jie
Lv, Yiming
Zhu, Liping
Hu, CanMing
An, Zhenghua
Applied Physics
Optics
Manipulation of wave propagation through open resonant systems has attracted tremendous interest. When accessible to the open system, the system under study is prone to tempering to out of equilibrium, and a lack of reciprocity is the rule rather than the exception. Open systems correspond to non-hermitian Hamiltonians with very unique properties such as resulting exceptional points and ideal isolation. Here, we have found a highly sensitive modulation for the intersection of resonant patch antennas with respect to cavity magnonic coupling by means of an open coupling system of three resonant modes. Two types of crossings are implemented in this study: the first type of crossing remotely controls the sharp switching of the transmission line 's transmittance, while regulating the repulsive behavior of its zero-reflection states. The second type of crossing corresponds to the modulation of non-reciprocal phase transitions, which enables a more desirable isolation effect. Three different coupling models are realized by a non-Hermitian scattering Hamiltonian, revealing distinct spatial overlaps between modes. This elucidates that dissipative coupling of at least two modes to the environment is crucial for non-reciprocal transport. Our work not only reveals the versatility of cavity magnonic systems but also provides a way to design functional devices for general wave optics using patch antenna crossings.
title Non-hermitian magnonic knobbing between electromagnetically induced reflection and transparancy
topic Applied Physics
Optics
url https://arxiv.org/abs/2404.11380