Period-One Microwave Photonic Sensing by a Laser Diode With Optical Feedback

Nie, Bairun; Ruan, Yuxi; Yu, Yanguang; Guo, Qinghua; Xi, Jiangtao; Tong, Jun

doi:10.1109/jlt.2020.2993320

Cited by 16 publications

(6 citation statements)

References 27 publications

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“…In the fast-developing information society, radio and microwave signals play significant roles in the field of communication, radar, and sensing systems [1][2][3]. To implement high-speed transmission in wireless networks as well as high-resolution detection in radar and sensing systems, high-frequency microwave signals with salient features such as ultralow phase noise and broad tunable range are highly required.…”

Section: Introductionmentioning

confidence: 99%

Microwave Photonic Signal Generation in an Optically Injected Discrete Mode Semiconductor Laser

et al. 2022

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In this paper, microwave photonic signal generation based on the period-one dynamic of optically injected discrete mode (DM) semiconductor lasers has been experimentally demonstrated and numerically simulated. The results show that the frequency of the generated microwave increases linearly with the frequency detuning or optical injection ratio. In addition, a single optical feedback loop is sufficient to reduce the microwave linewidth without significantly deteriorating side mode suppression. The simulation results using a model considering the nonlinear dependencies of the carrier recombination agree well with the experimental results, which indicates that the nonlinear carrier recombination effect is important in determining the nonlinear dynamics of optically injected DM lasers.

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Section: Introductionmentioning

confidence: 99%

Microwave Photonic Signal Generation in an Optically Injected Discrete Mode Semiconductor Laser

et al. 2022

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“…We reconstruct the work in [2] about POO-SOF boundaries by solving the classic Lang-Kobayashi equations and present it in Figure 4. As we can see, the POO-DOF system occupies a larger POO region than the POO-SOF system.…”

Section: Comparison Between Poo-dof Boundaries and Poo-sof Boundariesmentioning

confidence: 99%

“…On the one hand, the boundary between the POO and steady (S) states determines the stable operation region of an SL with optical feedback. On the other hand, emerging applications using POO have been proposed, such as photonic microwave generation and self-mixing interferometry sensing [1][2][3], due to its unique properties of eliminating high-speed electronics, nearly single-sideband spectrum, and wideband microwave frequency tunability [4]. For these applications, it needs to determine the operating range of POO.…”

Section: Introductionmentioning

confidence: 99%

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State boundary of period-one dynamics in a semiconductor laser with dual external optical feedback

Jiang

Yuan

Liu

2022

Semiconductor Lasers and Applications XII

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Semiconductor laser (SL) with optical feedback presents rich nonlinear dynamics, e.g., period-one oscillation (POO), quasi-periodic oscillation, and chaotic states. It is of significance to study the state boundary between different dynamic states for an SL with optical feedback from the perspective of both suppressing and using these dynamics, especially the boundary of POO state. This paper reveals the POO boundary of an SL with dual optical feedback (DOF). The modified Lang-Kobayashi equations were first numerically solved to develop a bifurcation diagram to determine the boundary between POO and other states. Then the POO-DOF boundary was compared with that of an SL with single optical feedback. Moreover, the effect of system parameters on the POO-DOF boundaries is researched. The results obtained are helpful to promote the development of the applications of POO dynamics.

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“…Under certain external settings (e.g., increasing the OF strength), the system leaves the stable state, then period-one oscillation can be invoked through the Hopf-bifurcation and accompanied by an undamped relaxation oscillation [5]. The period-one oscillation produces an intensity-modulated optical wave and gives regular pulsation at microwave frequencies [6][7][8][9]. Period-one oscillation has been found in many significant applications, such as the generation of microwave/millimeter-waves [10], photonic microwave sensing/radar [11,12], radio-over-fiber systems [13,14], and other optical signal processing applications [15,16].…”

Section: Introductionmentioning

confidence: 99%

Achieving Long Distance Sensing Using Semiconductor Laser with Optical Feedback by Operating at Switching Status

Nie

Ruan

et al. 2022

Sensors

Self Cite

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In this study, a novel distance sensing method is presented by using a semiconductor laser (SL) with optical feedback (OF) and operating the SL at a switching status happened between two nonlinear dynamic states (stable state and period-one state). In this case, without the need for any electronic or optical modulation devices, the laser intensity can be modulated in a square wave form due to the switching via utilizing the inherent SL dynamics. The periodicity in the switching enables us to develop a new approach for long-distance sensing compared to other SL with OF-based distance measurement systems and lift the relevant restrictions that existed in the systems. Moreover, the impact of system controllable parameters on the duty cycle of the square wave signals generated was investigated on how to maintain the proposed system robustly operating at the switching status. Both simulation and experiment verified the proposed sensing approach.

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Period-One Microwave Photonic Sensing by a Laser Diode With Optical Feedback

Cited by 16 publications

References 27 publications

Microwave Photonic Signal Generation in an Optically Injected Discrete Mode Semiconductor Laser

Microwave Photonic Signal Generation in an Optically Injected Discrete Mode Semiconductor Laser

State boundary of period-one dynamics in a semiconductor laser with dual external optical feedback

Achieving Long Distance Sensing Using Semiconductor Laser with Optical Feedback by Operating at Switching Status

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