Related papers: Quantum graphs and microwave networks as narrow band filters for quantum and microwave devices

Quantum graphs and microwave networks as narrow band filters for quantum and microwave devices

URL: http://arxiv.org/abs/2402.12925v1
Date: Tue, 20 Feb 2024 11:20:50 GMT
Title: Quantum graphs and microwave networks as narrow band filters for quantum and microwave devices
Authors: Afshin Akhshani, Ma{\l}gorzata Bia{\l}ous, and Leszek Sirko
Abstract summary: We investigate properties of the transmission amplitude of quantum graphs and microwave networks composed of regular polygons. For the graphs composed of the same polygons but separated by the edges of length $l' l$ the transmission spectrum is generally not symmetric. The analyzed properties of the graphs and networks suggest that they can be effectively used to manipulate quantum and wave transport.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We investigate properties of the transmission amplitude of quantum graphs and microwave networks composed of regular polygons such as triangles and squares. We show that for the graphs composed of regular polygons with the edges of the length $l$ the transmission amplitude displays a band of transmission suppression with some narrow peaks of full transmission. The peaks are distributed symmetrically with respect to the symmetry axis $kl=\pi$, where $k$ is the wave vector. For microwave networks the transmission peak amplitudes are reduced and their symmetry is broken due to the influence of internal absorption. We demonstrate that for the graphs composed of the same polygons but separated by the edges of length $l' < l$ the transmission spectrum is generally not symmetric according to the axis $kl'=\pi$. We also show that graphs composed of regular polygons of different size with the edges being irrational numbers are not fully chaotic and their level spacing distribution and the spectral rigidity are well described by the Berry-Robnik distributions. Moreover, the transmission spectrum of such a graph displays peaks which are very close to $1$. Furthermore, the microwave networks are investigated in the time-domain using short Gaussian pulses. In this case the delay-time distributions, though very sensitive to the internal structure of the networks, show the sequences of transmitted peaks with the amplitudes much smaller than the input one. The analyzed properties of the graphs and networks suggest that they can be effectively used to manipulate quantum and wave transport.

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