Concealment of Chaos Time-Delay Signature in Three-Cascaded Vertical-Cavity Surface-Emitting Lasers

Hong, Yanhua; Quirce, Ana; Wang, Bingjie; Ji, Songkun; Panajotov, Krassimir; Spencer, P.S.

doi:10.1109/jqe.2016.2587099

Cited by 11 publications

(9 citation statements)

References 42 publications

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“…Outside the injection locking region, it is possible to cancel TDS and enhance bandwidth in SSRL at the same time, as can be seen from both figures. However, such region for achieving both goals is narrow, which confirms previous observations in cascaded-coupled systems consisting of conventional EELs [35] or VCSELs [34].…”

Section: Figuresupporting

confidence: 88%

Simultaneous Chaos Time-Delay Signature Cancellation and Bandwidth Enhancement in Cascade-Coupled Semiconductor Ring Lasers

2019

IEEE Access

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Optics chaos has been widely studied and its various applications have also been demonstrated in recent years. To improve the performance of chaos-based applications, several properties of the chaotic signals should be evaluated and enhanced accordingly. In this paper, we consider a chaotic system consisting of three cascade-coupled semiconductor ring lasers (SRLs), where the master SRL is subjected to conventional (parallel) optical feedback, while its output is injected to the intermediate SRL and further to the slave SRL. We focus on the time-delay signature (TDS) and bandwidth of the generated chaos and demonstrate the possibility of the simultaneous realization of TDS elimination and bandwidth enhancement in the parameter space of the injection strength against the frequency detuning. In addition, a proof-ofconcept test of randomness is carried out, and it demonstrates that the chaotic properties could be greatly enhanced by the proposed cascade-coupling scheme compared with a single SRL with feedback and thus is suitable for use in high-speed random number generation.INDEX TERMS Nonlinear dynamics, optical chaos, semiconductor ring laser, time-delay signature, bandwidth.

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Section: Figuresupporting

confidence: 88%

Simultaneous Chaos Time-Delay Signature Cancellation and Bandwidth Enhancement in Cascade-Coupled Semiconductor Ring Lasers

2019

IEEE Access

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“…This further confirms that the suppression of TD signatures and complexity enhancement are achieved, providing that the operation of the master-slave system stays away from injection locking. This has also been previously observed and explained for other optically injected laser systems [16,18]. Moreover, one can also notice the difference in complexity between the regions where all time-delays are effectively suppressed and where only the delay multiples can be identified [see Fig.…”

Section: M-srl Under Cross-feedbacksupporting

confidence: 80%

“…Particularly for chaos-based communications, early works on chaotic lasers with feedback showed that even when the TD signature is concealed in the intensity dynamics I(t) [8], it may in some cases still be inferred by applying the same identifiers to the optical phase dynamics ϕ(t) [9]. For these reasons, novel approaches for suppressing the TD signature in chaotic sources have been reported [10][11][12][13][14][15][16][17][18][19]. Optical injection has been shown as a possible way to generate enhanced chaotic signals, exhibiting suppressed TD signatures, improved chaos bandwidth and dynamical complexity.…”

Section: Introductionmentioning

confidence: 99%

Enhancing optical-feedback-induced chaotic dynamics in semiconductor ring lasers via optical injection

Nguimdo

Locquet

et al. 2018

Nonlinear Dyn

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In this paper, we investigate the possibility of using optical injection to efficiently suppress the time-delay (TD) signatures of chaotic signals in a large experimentally accessible parameter range of semiconductor ring lasers (SRLs). We also study how this optical injection can improve the signal bandwidths. The injection signal is obtained from a master SRL with either optical self-or cross-feedback. For optical self-feedback configurations, it is found that the suppression of TD signatures is similar to what has been found in injected Fabry-Perot semiconductor lasers, i.e., narrow range of parameters with respect to the detuning and injection strengths. For cross-feedback configurations, however, the TD signatures can be suppressed in a wide range of parameters meanwhile the bandwidths are significantly improved for the same range of parameters. This is particularly useful for the security in chaos-based communications and also for generating random bits with improved properties.

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“…VCSELs subject to suitable optical feedback can generate high Kaplan-Yorke dimension optical chaotic output and then apply to optical-chaos-based communication [1,2,7]. However, the chaotic output from external cavity feedback VCSELs (ECF-VCSELs) usually retains a time-delay signature (TDS) originated from the optical round trip between the VCSEL and the external feedback mirror [8][9][10][11][12][13][14], which may provide some possibilities to reconstruct the system by adopting time-series analysis techniques for delayed systems [15][16][17] and then threaten the system security. As a result, the TDS suppression has been a research hot spot in the field related to chaos generation and applications based on delayed VCSELs in recent years.…”

Section: Introductionmentioning

confidence: 99%

“…Liu et al proposed a three cascade-coupled configuration of VCSELs and numerically investigated the TDS and chaotic bandwidth of the output from the VCSELs [13]. Hong et al experimentally verified the performance of the threecascaded VCSELs in suppressing the TDS of chaos as well as the effect of injecting chaotic bandwidth on the TDS suppression [14]. It should be noted that, for the abovementioned schemes, external optical feedback is provided by mirrors.…”

Section: Introductionmentioning

confidence: 99%

Experimental investigation on the time-delay signature of chaotic output from a 1550 nm VCSEL subject to FBG feedback

Zhong

Xia

2016

Photon. Res.

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The time-delay signature (TDS) of chaos output in a 1550 nm vertical-cavity surface-emitting laser (VCSEL) subject to fiber Bragg grating (FBG) feedback is investigated experimentally. Autocorrelation function (ACF) and mutual information (MI) are used for quantitatively identifying the TDS of chaos. For various bias currents, the TDS evolution with the feedback strength is different, as the FBG provides wavelength-selective feedback. Furthermore, based on the TDS map of the FBG feedback VCSEL (FBGF-VCSEL) in the parameter space of feedback strength and bias current, the optimal TDS suppression regions, where the dominant polarization mode of FBGF-VCSEL locates at the edge of the main lobe of FBG reflection spectrum, have been determined. Finally, for comparative purpose, the TDS of chaos in mirror feedback VCSEL (MF-VCSEL) also has been presented, and the results show that an FBGF-VCSEL possesses better TDS suppression performance than an MF-VCSEL.

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Concealment of Chaos Time-Delay Signature in Three-Cascaded Vertical-Cavity Surface-Emitting Lasers

Cited by 11 publications

References 42 publications

Simultaneous Chaos Time-Delay Signature Cancellation and Bandwidth Enhancement in Cascade-Coupled Semiconductor Ring Lasers

Simultaneous Chaos Time-Delay Signature Cancellation and Bandwidth Enhancement in Cascade-Coupled Semiconductor Ring Lasers

Enhancing optical-feedback-induced chaotic dynamics in semiconductor ring lasers via optical injection

Experimental investigation on the time-delay signature of chaotic output from a 1550 nm VCSEL subject to FBG feedback

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