English

Lightweight Low-Noise Linear Isolator Integrating Phase-Engineered Temporal Loops

Applied Physics 2021-07-21 v1 Optics

Abstract

The quest for efficient and versatile microwave and optical isolators has recently spawned several novel space-time-modulated isolator structures. However, such space-time isolators suffer from a large profile and complex architecture caused by progressive nonreciprocal space-time coupling properties. To overcome these limitations, we propose a nonmagnetic phase-engineered temporal-loop-based isolator featuring large isolation levels, weak undesired time harmonics, and a low profile. The proposed isolator is composed of two temporal loops that provide desired constructive and destructive interferences of different time harmonics. Furthermore, these two loops are designed in a way to assure that the circulation and reflection of different time harmonics strengthen a low insertion loss unidirectional signal transmission. An experimental demonstration of the proposed time-modulated isolator at microwave frequencies is provided, featuring strong unidirectional wave transmission through the isolator with more than 27 dB contrast between the forward and backward waves across a fractional bandwidth of 14.3%. The proposed isolator outperforms the nonlinear-based and transistor-based isolators by featuring a highly linear response with OP1dB of higher than 31 dBm, high power rating of more than 47 dBm, and a low noise figure of 3.4 dB.

Keywords

Cite

@article{arxiv.2107.09157,
  title  = {Lightweight Low-Noise Linear Isolator Integrating Phase-Engineered Temporal Loops},
  author = {Sajjad Taravati and George V. Eleftheriades},
  journal= {arXiv preprint arXiv:2107.09157},
  year   = {2021}
}
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