Millimeter-wave noise generation based on a monolithically integrated dual-mode chaotic laser

Author:

Chen Tianxiang1,Liu Wenjie1,Tao Xingyu1,Lu Dan2ORCID,Sun Yuehui1ORCID,Liu Junbin1,Jia Zhiwei3,Wang Yuncai1

Affiliation:

1. Guangdong University of Technology

2. Chinese Academy of Science

3. Taiyuan University of Technology

Abstract

A millimeter-wave noise generation scheme is proposed in this paper. The scheme is based on a monolithically integrated dual-mode chaotic laser, which consists of a distributed Bragg feedback (DFB) section, a phase section, and an optical amplification section. The output spectrum state of the dual-mode laser can be controlled by adjusting the injection current in the three regions. The monolithically integrated dual-mode chaotic laser has stable chaotic output and can be used as a light source for integrated millimeter-wave noise source. As a feasibility demonstration, a dual-mode chaotic laser with a mode interval of 2.05 nm was generated in the experiment, the optical mixing on a photodetector produced millimeter-wave noise with a center frequency of 259 GHz and a bandwidth of 44 GHz (237–281 GHz), achieving a typical value of excess noise ratio of 47 dB. It has the advantages of high noise source utilization, small noise source volume, and high integration.

Funder

National Key Research and Development Program of China

National Natural Science Foundation of China

Program for Guangdong Introducing Innovative and Entrepreneurial Teams

Publisher

Optica Publishing Group

Subject

Atomic and Molecular Physics, and Optics

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