Narrow-linewidth single-frequency photonicmicrowave generation in optically injected semiconductor lasers with filtered optical feedback
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In: Optics Letters, Vol. 43, No. 17, 24.08.2018, p. 4184-4187.
Research output: Contribution to journal › Article › peer-review
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T1 - Narrow-linewidth single-frequency photonicmicrowave generation in optically injected semiconductor lasers with filtered optical feedback
AU - Xue, Chenpeng
AU - Ji, Songkun
AU - Wang, Anbang
AU - Jiang, Ning
AU - Qiu, Kun
AU - Hong, Yanhua
PY - 2018/8/24
Y1 - 2018/8/24
N2 - Narrow-linewidth single-frequency photonic microwave generation scheme by using an optically injected semiconductor laser with a filtered optical feedback has been proposed. The filtered feedback comes from a single feedback loop, which includes a narrow band-pass filter. With the filtered feedback, linewidth of the generated microwave can be significantly reduced from 22.4 MHz to 9.0 kHz with the side-peak suppression of 28 dB. The proposed scheme shows superior performance compared with the conventional single feedback configuration in terms of linewidth reduction and sidepeak suppression. The proposed scheme also achieves better results compared with the complex dual feedback setting. The mechanism for the better performance of filtered optical feedback is that the filtered feedback can effectively limit the external cavity modes and stabilize the period one dynamics. In addition, the microwave linewidth decreases with the increase of the filter width until the optimized filter width is reached. Furthermore, the linewidth reduction and the side peaks suppression of photonic microwave using filtered optical feedback is relatively insensitive to the frequency detuning between the filter center frequency and the free-running frequency of the semiconductor laser
AB - Narrow-linewidth single-frequency photonic microwave generation scheme by using an optically injected semiconductor laser with a filtered optical feedback has been proposed. The filtered feedback comes from a single feedback loop, which includes a narrow band-pass filter. With the filtered feedback, linewidth of the generated microwave can be significantly reduced from 22.4 MHz to 9.0 kHz with the side-peak suppression of 28 dB. The proposed scheme shows superior performance compared with the conventional single feedback configuration in terms of linewidth reduction and sidepeak suppression. The proposed scheme also achieves better results compared with the complex dual feedback setting. The mechanism for the better performance of filtered optical feedback is that the filtered feedback can effectively limit the external cavity modes and stabilize the period one dynamics. In addition, the microwave linewidth decreases with the increase of the filter width until the optimized filter width is reached. Furthermore, the linewidth reduction and the side peaks suppression of photonic microwave using filtered optical feedback is relatively insensitive to the frequency detuning between the filter center frequency and the free-running frequency of the semiconductor laser
U2 - 10.1364/OL.43.004184
DO - 10.1364/OL.43.004184
M3 - Article
VL - 43
SP - 4184
EP - 4187
JO - Optics Letters
JF - Optics Letters
SN - 0146-9592
IS - 17
ER -