2014
DOI: 10.1103/physreva.89.023818
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Directional reversals and multimode dynamics in semiconductor ring lasers

Abstract: We investigate the dynamics of longitudinal modes in quantum-well semiconductor ring lasers by means of a spatiotemporal traveling-wave model. We report the existence of a multimode instability in such a system that provokes a periodic deterministic directional reversal involving jumps between consecutive longitudinal modes. The switching sequence follows the modal frequencies from blue to red, and every modal jump is accompanied by a reversal of the direction of emission. We characterize and analyze this inst… Show more

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Cited by 7 publications
(8 citation statements)
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“…In QDs indeed the Fast-LSHB of the carriers in the lasing ground state cannot be washed out by diffusion because carrier diffusion cannot occur in a 0D states [23], [24]. Theoretical works have demonstrated that the carrier gratings originated by the standing wave pattern cause a saturation of the gain at the lasing mode wavelength and this saturation can be modeled as a gain compression factor parameter (also known as ε parameter) [25], [26] [27]. Several experimental works have also reported measurements or evidences of high ε-parameter as a peculiar characteristic of the QD lasers [28]- [30], [31].…”
Section: Introductionmentioning
confidence: 99%
“…In QDs indeed the Fast-LSHB of the carriers in the lasing ground state cannot be washed out by diffusion because carrier diffusion cannot occur in a 0D states [23], [24]. Theoretical works have demonstrated that the carrier gratings originated by the standing wave pattern cause a saturation of the gain at the lasing mode wavelength and this saturation can be modeled as a gain compression factor parameter (also known as ε parameter) [25], [26] [27]. Several experimental works have also reported measurements or evidences of high ε-parameter as a peculiar characteristic of the QD lasers [28]- [30], [31].…”
Section: Introductionmentioning
confidence: 99%
“…(1) and (3)-(5) in a similar way as we did previously [14] and detailed in Appendix A. The threshold analysis lead us to the following eigenvalue equation,…”
Section: A Threshold Analysismentioning
confidence: 94%
“…This TWM has been used in the past for studying similar wavelength jumps that occur in passively mode-locked semiconductor lasers [12], and it naturally includes multilongitudinal mode competition and coupled-cavity effects. We briefly summarize the model, and refer the reader to [11], [13], [14] for the details.…”
Section: Theoretical Modellingmentioning
confidence: 99%
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