2014
DOI: 10.1155/2014/728458
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Modeling of Millimeter-Wave Modulation Characteristics of Semiconductor Lasers under Strong Optical Feedback

Abstract: This paper presents modeling and simulation on the characteristics of semiconductor laser modulated within a strong optical feedback (OFB-)induced photon-photon resonance over a passband of millimeter (mm) frequencies. Continuous wave (CW) operation of the laser under strong OFB is required to achieve the photon-photon resonance in the mm-wave band. The simulated time-domain characteristics of modulation include the waveforms of the intensity and frequency chirp as well as the associated distortions of the mod… Show more

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Cited by 3 publications
(5 citation statements)
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“…The effect of varying optical phase ψ 1 due to OFB on the laser fluctuations has been noticed in Refs. [9,11,31] and confirmed experimentally in Ref [11,31]. The reduction in the intensity of S(t)/S av is shown in Figure 3b as a little reduction of RIN.…”
Section: Laser Dynamic States Under Single External Cavitysupporting
confidence: 82%
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“…The effect of varying optical phase ψ 1 due to OFB on the laser fluctuations has been noticed in Refs. [9,11,31] and confirmed experimentally in Ref [11,31]. The reduction in the intensity of S(t)/S av is shown in Figure 3b as a little reduction of RIN.…”
Section: Laser Dynamic States Under Single External Cavitysupporting
confidence: 82%
“…[5], which was applied in investigating the dynamics and noise of pumping LDs used in fiber amplifier systems [5,6]. Moreover, the impacts of nonlinear gain, radiative and non-radiative lifetime, linewidth enhancement factor (LEF), and combined optical phase on the operation states and relative intensity noise (RIN) of 0.1550 µm InGaAsP/InP time-delayed LD have been studied [7][8][9].…”
Section: Introductionmentioning
confidence: 99%
“…), and second and third intermodulation frequencies (f _m1 ± f _m2, 2f _m1 ± f _m2, 2f _m2 ± f _m1, etc.). The power ratio (in dBc) of the second harmonic to the fundamental modulation frequency quantifies the second harmonic distortions HD2 as [22]: HD2 = 10 log 10 P 2fm1 P fm1 (6) where P _2f m1 and P _f m1 are the peak powers at 2f _m1 and f _m1, respectively, whereas the intermodulation distortions, IMD2 and IMD3, are described as the power ratios (in dBc) of the intermodulation products f _m1 ± f _m2 and f _m1 ± Δf , respectively, to P _f m1 and are expressed as follows [6,22]: IMD2 = 10 log 10 P fm1±fm2 P fm1 (7) IMD3 = 10 log 10 P fm1±Δf P fm1 (8) where P _f m1±f m2 and P _f m1±Δf are the peak powers at second and third intermodulation products.…”
Section: Dynamic Behaviors Of Ldsmentioning
confidence: 99%
“…These power differences are calculated using Eqs. ( 8), (7), and (6), respectively. Figure 2b shows the power spectrum of the received fundamental laser signals and distortion products after traveling down a SSMF with length L = 2 km.…”
Section: Effect Of Ssmf Properties On Signal Distortionsmentioning
confidence: 99%
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