Generation of Tunable and Ultra-Broadband Microwave Frequency Combs Based on a Semiconductor Laser Subject to Pulse Injection From a Current Modulated Laser

Generation of Tunable and Ultra-Broadband Microwave Frequency Combs Based on a Semiconductor Laser Subject to Pulse Injection From a Current Modulated Laser

We have experimentally demonstrated and characterized the generation of tunable and ultra-broadband microwave frequency combs (MFCs) based on a slave laser (SL) subject to regular pulse injection from a current modulated master laser (ML). Under modulation frequency <italic>f<sub>m</s...

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Hauptverfasser: Li Fan, Guang-Qiong Xia, Tao Deng, Xi Tang, Xiao-Dong Lin, Zi-Ye Gao, Zheng-Mao Wu
Format: Artikel
Sprache:Englisch
Veröffentlicht: IEEE 2018-01-01
Schriftenreihe:IEEE Photonics Journal
Schlagworte:
Semiconductor laser
microwave frequency combs
current modulation
pulse injection
tunable and broadband
Online-Zugang:https://ieeexplore.ieee.org/document/8543585/
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Beschreibung
Zusammenfassung:We have experimentally demonstrated and characterized the generation of tunable and ultra-broadband microwave frequency combs (MFCs) based on a slave laser (SL) subject to regular pulse injection from a current modulated master laser (ML). Under modulation frequency <italic>f<sub>m</sub></italic> &#x003D; 1.2&#x00A0;GHz and modulation power <italic>P<sub>m</sub> &#x003D;</italic> 22&#x00A0;dBm, the current modulated ML is driven into a regular pulse state, and a seed MFC with 14.4&#x00A0;GHz bandwidth within a &#x00B1;5&#x00A0;dB amplitude variation can be obtained. Such a seed MFC is then injected into the SL for producing final MFC with higher performances. For a fixed detuning frequency <italic>f<sub>i</sub></italic> &#x003D; 0&#x00A0;GHz and optimized injection power <italic>P<sub>i</sub></italic> &#x003D; 2060 <italic>&#x03BC;</italic>W, the bandwidth of the final MFC is increased to 33.6&#x00A0;GHz, and the single-sideband phase noises of all comb lines of the MFC within the bandwidth can be decreased to below &#x2013;90.9&#x00A0;dBc&#x002F;Hz&#x0040;10&#x00A0;kHz. Additionally, the influences of <italic>P<sub>i</sub></italic> and <italic>f<sub>m</sub></italic> on the MFC bandwidth are also analyzed. The experimental results are in agreement with numerical simulations to a certain extent.
ISSN:1943-0655

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