Solitary laser

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August undefined, 2024

WebJun 24, 2024 · In this chapter we therefore investigate the timing jitter of the solitary passively mode-locked laser, as well as its behaviour under the influence of optical feedback. Via comparison of experimentally measured power spectra with theoretically expected frequency dependencies for different noise sources, the authors of [ 1 ] have … WebAn experimental investigation of a semiconductor laser subject to moderate to strong optical feedback shows that sporadic power discontinuities occur everywhere along the boundary separating feedback regimes IV and V. These low-frequency fluctuations (LFF's) do not occur just near the solitary-laser threshold as previously thought. Furthermore, …

Dynamics of power dropout events in semiconductor lasers with …

Websolitary laser diode without feedback. Fig. 3(b) shows the single frequency mode spectrum when feedback is applied with a VHG at several angles (VHG has 35% reflectivity and 4mm length, focal length of collimated lens 4 mm). For the spectrum centered at 404.25nm, the side modes corresponding to the solitary laser diode are suppressed by 15dB but WebOct 14, 2003 · The stability of the polarization-resolved (PR) light output of a commercial vertical-cavity surface-emitting laser (VCSEL) has been studied with and without the presence of external optical injection in a master-slave configuration. Pulsations in the PR light output are observed in the solitary laser at certain bias current. It has been observed … ct761ak2 snap on

Semiconductor laser dynamics subject to strong optical feedback

WebFeb 1, 1998 · Coexisting attractors, which arise from different external-cavity modes of the same longitudinal mode of the solitary laser, retain distinct stability properties, particularly when the laser is biased far above threshold and subjected to moderately strong optical feedback from a distant reflector. When the laser is modeled by the Lang and Kobayashi … WebWe report the experimental results to continuously tune the coherence length of a semiconductor laser using an optical feedback scheme. The coherence length can be controlled by adjusting the feedback strength when a semiconductor laser operates in a coherence collapse regime. Fine structures of the fringe visibility of the laser output show … WebJun 11, 2014 · We demonstrate the physical generation of random bits at high bit rates (> 100 Gb/s) using optical chaos from a solitary laser diode and therefore without the complex addition of either external optical feedback or injection. This striking result is obtained despite the low dimension and relatively small bandwidth of the laser chaos, i.e. two … ct7695100

Phys. Rev. A 57, 1313 (1998) - Stability and dynamical properties …

External cavity wavelength tunable semiconductor lasers - a …

In this section, analytical expressions for RO frequency and damping for a rate equation model for a conventional, single-mode, class B QW laser model [54, 55] are derived. The QW rate equations are given by Here, {\mathcal {E}} is the slowly varying amplitude of the electrical field, which is normalized such that … See more Now, the solitary QD laser Eqs. (2.4) are analyzed starting with the steady states. For the subsequent analysis, the spontaneous emission in the field Eqs. (2.4) is … See more In the limit of the reference and the slow set of scattering rates (cf. Table 2.1), analytical expression for RO frequency and damping of the QD laser have been … See more For the slow set of scattering rates of Table 2.1, RO frequency and damping read in units of time t'=(2\kappa )^{-1}t where we have introduced The contribution … See more The limit of very fast scattering rates is described by the limit F_b\rightarrow \infty (b=e for electrons and b=h for holes) of the dynamical equations (2.4). In this … See more WebWe analyze the performance of a Ti:sapphire self-mode-locked laser with near-zero second- and third-order dispersion. Our simulations show that, in the presence of fourth-order … ct7642 日置WebCompared to the solitary laser, the external feedback light reduced the relaxation period. The stronger was the amplitude feedback strength, the greater was the decrease of τRO. However, the ... earpiece for motorola xts 1500

"WebAbstract: Semiconductor lasers are extremely sensitive to optical feedback, which can cause power dropout events (often called low-frequency fluctuations (LFF)) near the solitary laser threshold. In this phenomenon, the laser power suddenly drops to almost zero and then recovers in a stepwise manner to its original power level, only to drop out again at … " - Solitary laser

Dynamics of power dropout events in semiconductor lasers with …

Semiconductor laser dynamics subject to strong optical feedback

Solitary laser

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