YG Zhang scite author profile

YG Zhang

3Publications

80Citation Statements Received

49Citation Statements Given

How they've been cited

127

How they cite others

Affiliations

Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences

Publications

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Room temperature continuous-wave operation of InAs∕InP(100) quantum dot lasers grown by gas-source molecular-beam epitaxy

Gong

Lao

et al. 2008

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We report on the InAs quantum dots (QDs) laser in the 1.55μm wavelength region grown by gas source molecular-beam epitaxy. The active region of the laser structure consists of fivefold-stacked InAs QD layers embedded in the InGaAsP layer. Ridge waveguide lasers were processed and continuous-wave mode operation was achieved between 20 and 70°C, with characteristic temperature of 69K. High internal quantum efficiency (56%) and low infinite length threshold current density (128A∕cm2 per QD layer) was obtained for the as-cleaved devices at room temperature. The lasing wavelength range between 1.556 and 1.605μm can be covered by varying the laser cavity length.

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Properties of gas source molecular beam epitaxy grown wavelength extended InGaAs photodetector structures on a linear graded InAlAs buffer

Zhang

Wang

et al. 2008

Semicond. Sci. Technol.

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The properties of gas source molecular beam epitaxy grown wavelength extended (2.4 μm) InGaAs photodetector structures on a linear graded InAlAs buffer with different grading rates have been investigated by means of XRD and PL techniques in conjunction with optical and atomic force microscopy. Results show that full relaxation and favorable optical characteristics of the active layers only occur for the wafers with a mismatch grading rate of about 1.2% μm −1 or lower, whereas moderate morphology and structural quality could be achieved for a mismatch grading rate up to 2.4% μm −1 . A thin GSMBE grown linear graded InAlAs buffer layer of 1.4 μm is sufficient to relax the strain of an InGaAs layer with 1.7% mismatch to the InP substrate and reach a good quality of the wafer. The relaxation mechanisms of the buffer at different grading rates were also discussed.

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Distinction investigation of InGaAs photodetectors cutoff at 2.9μm

Zhang

Wang

et al. 2010

Infrared Physics & Technology

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YG Zhang

Room temperature continuous-wave operation of InAs∕InP(100) quantum dot lasers grown by gas-source molecular-beam epitaxy

Properties of gas source molecular beam epitaxy grown wavelength extended InGaAs photodetector structures on a linear graded InAlAs buffer

Distinction investigation of InGaAs photodetectors cutoff at 2.9μm

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