2016
DOI: 10.1063/1.4952600
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Sub-wavelength InAs quantum dot micro-disk lasers epitaxially grown on exact Si (001) substrates

Abstract: Subwavelength micro-disk lasers (MDLs) as small as 1 μm in diameter on exact (001) silicon were fabricated using colloidal lithography. The micro-cavity gain medium incorporating five-stacked InAs quantum dot layers was grown on a high crystalline quality GaAs-on-V-grooved-Si template with no absorptive intermediate buffers. Under continuous-wave optical pumping, the MDLs on silicon exhibit lasing in the 1.2-μm wavelength range with low thresholds down to 35 μW at 10 K. The MDLs compare favorably with devices … Show more

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Cited by 63 publications
(44 citation statements)
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“…Second, the injection efficiency is reduced because the pump laser generated carriers can be partially trapped by the deep energy level traps related with dislocations in the disk region. 13 Moreover, the broader PL emission spectrum of the MDL on silicon is more favorable for multi-mode lasers (Fig. 1(f)).…”
mentioning
confidence: 99%
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“…Second, the injection efficiency is reduced because the pump laser generated carriers can be partially trapped by the deep energy level traps related with dislocations in the disk region. 13 Moreover, the broader PL emission spectrum of the MDL on silicon is more favorable for multi-mode lasers (Fig. 1(f)).…”
mentioning
confidence: 99%
“…10 Recently, direct epitaxy of III-V lasers on Si has attracted significant attention with the successful use of self-assembled quantum dots (QDs) as active materials. [11][12][13] The distinctive zerodimensional density of states of QDs offers lower threshold current density with improved thermal stability in III-V lasers, 14 and their discrete localization promises greater immunity to defects associated with III-V/Si heteroepitaxy when compared to their conventional quantum-well counterparts. 15 More interestingly, these QDs are capable of bending or pinning the threading dislocations (TDs) because of their large strain field.…”
mentioning
confidence: 99%
“…Although the growth on mask-free nanopatterned surfaces has been frequently used for site controlled fabrication of semiconductor QDs or nanoislands [55], it is also beneficial for improving the quality of continuous III-V layers [56][57][58][59]. Here, 'nanopatterned' means that the substrate surface exhibits ordered or random topographical features with dimensions well below 1 μm.…”
Section: Growth On Mask-free Nanopatterned Surfacesmentioning
confidence: 99%
“…Recently, these nanoheteroepitaxy methods have been exploited for the realization of several III-V devices integrated on a Si platform. Examples include laser diodes [59,61], GaAs solar cells [49], and GaAs/In x Ga 1−x As tunnel diodes for digital circuits applied e.g. in inverters or random-access memory cells [62,63].…”
Section: Relevance Of Nanoheteroepitaxial Layers For Advanced Optoelementioning
confidence: 99%
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