2010
DOI: 10.1364/oe.18.012832
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Dual-wavelength mode-locked quantum-dot laser, via ground and excited state transitions: experimental and theoretical investigation

Abstract: We report a dual-wavelength passive mode locking regime where picosecond pulses are generated from both ground (lambda = 1263 nm) and excited state transitions (lambda = 1180 nm), in a GaAs-based monolithic two-section quantum-dot laser. Moreover, these results are reproduced by numerical simulations which provide a better insight on the dual-wavelength mode-locked operation.

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Cited by 56 publications
(37 citation statements)
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References 16 publications
(20 reference statements)
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“…13,22 Lastly, various studies have investigated the two-state lasing dynamics where ES and GS lasing can take place simultaneously either with or without external optical feedback. 21,[23][24][25] In particular, it was recently unveiled that the two-state lasing can produce a large GS modulation enhancement. [26][27][28] In order to further evaluate the potential impact of such lasers in the view of their inclusions into a fiber-pigtailed telecom module, this work aims at characterizing the long-delay optical feedback dynamics of InAs/GaAs QD Fabry-Perot (FP) lasers emitting either on the sole GS or exclusively on the ES.…”
Section: © 2016 Author(s) All Article Content Except Where Otherwismentioning
confidence: 99%
“…13,22 Lastly, various studies have investigated the two-state lasing dynamics where ES and GS lasing can take place simultaneously either with or without external optical feedback. 21,[23][24][25] In particular, it was recently unveiled that the two-state lasing can produce a large GS modulation enhancement. [26][27][28] In order to further evaluate the potential impact of such lasers in the view of their inclusions into a fiber-pigtailed telecom module, this work aims at characterizing the long-delay optical feedback dynamics of InAs/GaAs QD Fabry-Perot (FP) lasers emitting either on the sole GS or exclusively on the ES.…”
Section: © 2016 Author(s) All Article Content Except Where Otherwismentioning
confidence: 99%
“…Owing to the absence of mechanical components, such results are of high interest as, for example, for swept laser systems, where the wavelength could be tuned at very high speeds. Considering that it is possible to have dual−wavelength mode−locking engaging both GS and ES simultaneously directly from a monolithic mode−locked QD laser [69], the results here presented are encouraging for the future development of broadly−tunable multi−wavelength mode−locked operation from QD lasers. Table 2.…”
Section: State Of the Art In The Development Of Tunable Mode−locked Qmentioning
confidence: 65%
“…Unfortunately, this flexibility and accuracy of the FDTW model is linked to high computational time-consuming efforts preventing its application in the extensive mapping of dynamic operation regimes. For parametric analysis, as exemplarily depicted for the example of a pulse width mapping in Figure 2.3, a modified delay differential equations (DDEs) model is particularly suitable as it preserves high accuracy while dramatically reducing computational efficiency [13][14][15][16][17]. By an extension of the DDE numerical model, devices with nonuniform waveguide section geometries can also be described [18][19][20].…”
Section: Simulationsmentioning
confidence: 99%
“…Monolithic InAs/InGaAs two-section QD lasers offer, because of their compactness, low cost, and direct electrical pumping, very attractive features for reducing the footprint and complexity of the aforementioned applications in addition to bearing the potential to open up new avenues in ultrafast optical processing and optical interconnects [3,14]. Owing to the existence of GS and ES in the dot energy scheme, QD lasers are the ideal candidates to realize simultaneous dual-wavelength or two-state lasing.…”
Section: Simultaneous Gs and Es MLmentioning
confidence: 99%