2014
DOI: 10.1103/physreva.89.033848
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Dispersion-induced dynamics of coupled modes in a semiconductor laser with saturable absorption

Abstract: We present an experimental and theoretical study of modal nonlinear dynamics in a specially designed dual-mode semiconductor Fabry-Perot laser with a saturable absorber. At zero bias applied to the absorber section, we have found that with increasing device current, single mode self-pulsations evolve into a complex dynamical state where the total intensity experiences regular bursts of pulsations on a constant background. Spectrally resolved measurements reveal that in this state the individual modes of the de… Show more

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(2 citation statements)
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“…In this case, the mode-locked state can be described as a mutually injection locked steady-state with zero net group velocity dispersion. Although these models are attractive and convenient given the natural modal picture that follows from our design approach [18], current frequency domain models are valid for small gain and loss. In addition, because these models describe the ML state as a steady-state rather than a steady peri-arXiv:1405.7614v1 [physics.optics] 29 May 2014 odic state, these models are small signal models of the mode-locked laser [21].…”
Section: Introductionmentioning
confidence: 99%
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“…In this case, the mode-locked state can be described as a mutually injection locked steady-state with zero net group velocity dispersion. Although these models are attractive and convenient given the natural modal picture that follows from our design approach [18], current frequency domain models are valid for small gain and loss. In addition, because these models describe the ML state as a steady-state rather than a steady peri-arXiv:1405.7614v1 [physics.optics] 29 May 2014 odic state, these models are small signal models of the mode-locked laser [21].…”
Section: Introductionmentioning
confidence: 99%
“…In order to optimize the mode-locking range of these devices for applications, efficient dynamical models are crucial for understanding the structure of the modelocking region in the phase-space of drive parameters. In general, frequency domain models extend the rate equation description of a two-section semiconductor laser [17,18] to include phase-sensitive modal interactions [19,20]. In this case, the mode-locked state can be described as a mutually injection locked steady-state with zero net group velocity dispersion.…”
Section: Introductionmentioning
confidence: 99%