2000
DOI: 10.1049/el:20001080
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Low-threshold quantum dot lasers with 201 nm tuningrange

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Cited by 130 publications
(63 citation statements)
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“…Considering laser diodes with the same AR coatings, reducing their cavity length from 2 mm to 1.7 mm led to an increase in the free−running loss, enabling access to the more energetic excited states. As long as such an increase in loss does not exceed the saturated gain of the ground state, then it is possible to access both GS and ES and thus extend tunability [41]. This was further demonstrated in [6], whereby the tunability of an external cavity laser was investigated with diode chips of different lengths (1, 2 and 3 mm).…”
Section: Optimization Of Threshold Currentmentioning
confidence: 95%
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“…Considering laser diodes with the same AR coatings, reducing their cavity length from 2 mm to 1.7 mm led to an increase in the free−running loss, enabling access to the more energetic excited states. As long as such an increase in loss does not exceed the saturated gain of the ground state, then it is possible to access both GS and ES and thus extend tunability [41]. This was further demonstrated in [6], whereby the tunability of an external cavity laser was investigated with diode chips of different lengths (1, 2 and 3 mm).…”
Section: Optimization Of Threshold Currentmentioning
confidence: 95%
“…In this context, it is particularly useful to go back to those studies where a comparative investigation was made of several different structures or laser layouts. The first demonstration of a broadly tunable QD laser (201 nm) already provided key insights into the role of chip length and cavity loss in the achievable tunability [41]. Considering laser diodes with the same AR coatings, reducing their cavity length from 2 mm to 1.7 mm led to an increase in the free−running loss, enabling access to the more energetic excited states.…”
Section: Optimization Of Threshold Currentmentioning
confidence: 99%
“…31 We present here comprehensive experimental and theoretical studies on InP-based TI structures containing InAs quantum dashes (QDashes). These structures substantially differ from typical quantum dots since they are strongly elongated in [1][2][3][4][5][6][7][8][9][10] direction and hence they have a denser ladder of confined states. 32,33 In the considered design, QDashes are immersed in the InGaAlAs matrix, with the GS emission near 1.55 µm at room temperature (RT).…”
mentioning
confidence: 92%
“…lasers. Carefully designed TI structures make possible taking advantage of improved characteristics of a QD-based laser, such as lower threshold current, 1,2 better temperature stability [3][4][5] and wider spectral tunability, 6 while addressing the issue in QD lasers that hinders their performance, i.e. limited modulation rates due to considerable population of hot carriers occupying QD excited states and wetting layer states.…”
mentioning
confidence: 99%
“…This concerns a low threshold current [1,2] and high temperature insensitivity [3][4][5]. Due to the large inhomogeneous broadening of QD emission they can also be tuned in a wide range of wavelengths [6]. However, there are still problems that need to be overcome to push the performance characteristics of the QD lasers further, for instance, the existence of the large population of hot carriers occupying QD excited states or wetting layer, which limits the speed of modulation.…”
Section: Introductionmentioning
confidence: 99%