Role of modulation bandwidth in narrow spectral linewidth semiconductor lasers under optical negative feedback

Nobuhide Yokota; Hiroki Kiuchi; Hiroshi Yasaka

doi:10.35848/1347-4065/abb39d

Role of modulation bandwidth in narrow spectral linewidth semiconductor lasers under optical negative feedback

Nobuhide Yokota, Hiroki Kiuchi, Hiroshi Yasaka

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Tohoku University

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Abstract

We investigated the FM noise characteristics of a distributed feedback laser under optical negative feedback from a Fabry-Perot optical filter using delayed self-homodyne coherent detection with a high-frequency range of 1 × 105-2 × 1010 Hz. The measured FM noise power spectral densities of the laser under the optical negative feedback strongly depend on the modulation responses of the laser. These results were reproduced in calculations based on a transfer function model. Our findings suggest that wide bandwidth semiconductor lasers are suitable for reducing FM noise in a wide frequency range and enhancing the feedback loop gain (FM noise reduction ratio) under a sufficient phase margin in optical negative feedback.

Original language	English
Article number	102001
Journal	Japanese Journal of Applied Physics
Volume	59
Issue number	10
DOIs	https://doi.org/10.35848/1347-4065/abb39d
Publication status	Published - 2020 Oct 1

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title = "Role of modulation bandwidth in narrow spectral linewidth semiconductor lasers under optical negative feedback",

abstract = "We investigated the FM noise characteristics of a distributed feedback laser under optical negative feedback from a Fabry-Perot optical filter using delayed self-homodyne coherent detection with a high-frequency range of 1 × 105-2 × 1010 Hz. The measured FM noise power spectral densities of the laser under the optical negative feedback strongly depend on the modulation responses of the laser. These results were reproduced in calculations based on a transfer function model. Our findings suggest that wide bandwidth semiconductor lasers are suitable for reducing FM noise in a wide frequency range and enhancing the feedback loop gain (FM noise reduction ratio) under a sufficient phase margin in optical negative feedback.",

author = "Nobuhide Yokota and Hiroki Kiuchi and Hiroshi Yasaka",

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AU - Yokota, Nobuhide

AU - Kiuchi, Hiroki

AU - Yasaka, Hiroshi

PY - 2020/10/1

Y1 - 2020/10/1

N2 - We investigated the FM noise characteristics of a distributed feedback laser under optical negative feedback from a Fabry-Perot optical filter using delayed self-homodyne coherent detection with a high-frequency range of 1 × 105-2 × 1010 Hz. The measured FM noise power spectral densities of the laser under the optical negative feedback strongly depend on the modulation responses of the laser. These results were reproduced in calculations based on a transfer function model. Our findings suggest that wide bandwidth semiconductor lasers are suitable for reducing FM noise in a wide frequency range and enhancing the feedback loop gain (FM noise reduction ratio) under a sufficient phase margin in optical negative feedback.

AB - We investigated the FM noise characteristics of a distributed feedback laser under optical negative feedback from a Fabry-Perot optical filter using delayed self-homodyne coherent detection with a high-frequency range of 1 × 105-2 × 1010 Hz. The measured FM noise power spectral densities of the laser under the optical negative feedback strongly depend on the modulation responses of the laser. These results were reproduced in calculations based on a transfer function model. Our findings suggest that wide bandwidth semiconductor lasers are suitable for reducing FM noise in a wide frequency range and enhancing the feedback loop gain (FM noise reduction ratio) under a sufficient phase margin in optical negative feedback.

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Role of modulation bandwidth in narrow spectral linewidth semiconductor lasers under optical negative feedback

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