2014
DOI: 10.1016/j.pquantelec.2014.11.001
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Self-assembled InAs/InP quantum dots and quantum dashes: Material structures and devices

Abstract: The advances in lasers, electronic and photonic integrated circuits (EPIC), optical interconnects as well as the modulation techniques allow the present day society to embrace the convenience of broadband, high speed internet and mobile network connectivity. However, the steep increase in energy demand and bandwidth requirement calls for further innovation in ultra-compact EPIC technologies. In the optical domain, innovation in the laser technologies beyond the current quantum well (Qwell) based laser technolo… Show more

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Cited by 71 publications
(48 citation statements)
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References 365 publications
(544 reference statements)
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“…Recently, we have demonstrated optimization of the photonic environment to tailor the polarization anisotropy of emission from a single quantum emitter of an InAs/AlGaInAs/InP material system [18]. Hereby, we focus on the improvement of [16,21,[26][27][28][29], which can be interchanged in the fabrication of nanophotonic devices aimed at the telecom range due to similar refractive index, therefore our approach is valid for both of them. The mesa is placed on monolithic InP -sample "A" -or a DBR on InP -sample "B" -as shown in Fig.…”
Section: Investigated Structuresmentioning
confidence: 99%
“…Recently, we have demonstrated optimization of the photonic environment to tailor the polarization anisotropy of emission from a single quantum emitter of an InAs/AlGaInAs/InP material system [18]. Hereby, we focus on the improvement of [16,21,[26][27][28][29], which can be interchanged in the fabrication of nanophotonic devices aimed at the telecom range due to similar refractive index, therefore our approach is valid for both of them. The mesa is placed on monolithic InP -sample "A" -or a DBR on InP -sample "B" -as shown in Fig.…”
Section: Investigated Structuresmentioning
confidence: 99%
“…This new class of dot-like nanostructure possesses both the features of quantum dot and quantum wire [1,2] and is highly attractive in optoelectronic device applications, thanks to the ultra-broad gain profile (>300 nm) and wide range of wavelength tenability of Qdashes covering C -L -U communication bands (~1400 nm to >2000 nm) [1]. Furthermore, devices based on self-assembled Qdash active region have demonstrated a number of unique qualities like, ultra-broad emission under stimulated (lasers) and amplified spontaneous (superluminescent diodes) emissions regimes, fast index and gain dynamics, and the capability of amplifying multiple wavelengths without any crosstalk (SOA).…”
Section: Discussionmentioning
confidence: 99%
“…In general, this has been attributed to the carrier localization in noninteracting or spatially isolated dot/dash in a highly inhomogeneous system. Such broadband light emitters are in great demand in highly-sensitive sensing, spectroscopy, optical telecommunications, eye-safe low-speckle sources for flash lidar and high resolution bio-imaging particularly optical coherence tomography (OCT) [1].…”
Section: Discussionmentioning
confidence: 99%
“…On the other hand, as a result of the advantages offered by the quantification of lowdimensional quantum systems in terms of lower threshold current, broader gain response or improved thermal stability with respect to quantum wells, quantum dash-based active media have been extensively studied in the past [13]. Most of the contributions presented in the literature are related to edge-emitting and mode-locked lasers or semiconductor optical amplifiers [13,14], with some works on micrometer-long-cavity VCSELs, for which a well-defined and stable linear state-of-polarization [15,16], and a very wide gain bandwidth [17] were reported. It is thus interesting to investigate the behavior of such nanostructured semiconductor active medium in an external-cavity configuration, in order to benefit from the long-cavity setup in terms of laser linewidth and intensity noise performances.…”
Section: Introductionmentioning
confidence: 99%