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#TitleJournalYearCitations
1High-channel-count 20  GHz passively mode-locked quantum dot laser directly grown on Si with 41  Tbit/s transmission capacityOptica2019129
2Highly Reliable Low-Threshold InAs Quantum Dot Lasers on On-Axis (001) Si with 87% Injection EfficiencyACS Photonics2018120
3High efficiency low threshold current 1.3 μm InAs quantum dot lasers on on-axis (001) GaP/SiApplied Physics Letters2017114
4Low threading dislocation density GaAs growth on on-axis GaP/Si (001)Journal of Applied Physics201796
51.3-<inline-formula> <tex-math notation="LaTeX">$\mu$ </tex-math> </inline-formula>m Reflection Insensitive InAs/GaAs Quantum Dot Lasers Directly Grown on SiliconIEEE Photonics Technology Letters201983
6Semiconductor quantum dot lasers epitaxially grown on silicon with low linewidth enhancement factorApplied Physics Letters201863
7Analysis of the optical feedback dynamics in InAs/GaAs quantum dot lasers directly grown on siliconJournal of the Optical Society of America B: Optical Physics201856
8Directly modulated 13 μm quantum dot lasers epitaxially grown on siliconOptics Express201851
9Low Dark Current High Gain InAs Quantum Dot Avalanche Photodiodes Monolithically Grown on SiACS Photonics202049
10The Importance of p-Doping for Quantum Dot Laser on Silicon PerformanceIEEE Journal of Quantum Electronics201941
111.3 µm Quantum Dot‐Distributed Feedback Lasers Directly Grown on (001) SiLaser and Photonics Reviews202040
12Epitaxial quantum dot lasers on silicon with high thermal stability and strong resistance to optical feedbackAPL Photonics202032
13Direct observation of recombination-enhanced dislocation glide in heteroepitaxial GaAs on siliconPhysical Review Materials201830
14Monolithic 9 GHz passively mode locked quantum dot lasers directly grown on on-axis (001) SiApplied Physics Letters201826
15Low-dark current 10 Gbit/s operation of InAs/InGaAs quantum dot p-i-n photodiode grown on on-axis (001) GaP/SiApplied Physics Letters201825
16Low-Threshold Continuous-Wave Operation of Electrically Pumped 1.55 μm InAs Quantum Dash Microring LasersACS Photonics201924
17Directly Modulated Single‐Mode Tunable Quantum Dot Lasers at 1.3 µmLaser and Photonics Reviews202024
18Low-Threshold Epitaxially Grown 1.3-μm InAs Quantum Dot Lasers on Patterned (001) SiIEEE Journal of Selected Topics in Quantum Electronics201923
19Low Dark Current 1.55 Micrometer InAs Quantum Dash Waveguide PhotodiodesACS Nano202016
20Effect of growth interruption in 1.55 μm InAs/InAlGaAs quantum dots on InP grown by molecular beam epitaxyJournal of Applied Physics201814
21Influence of the polarization anisotropy on the linewidth enhancement factor and reflection sensitivity of 1.55- μ m InP-based InAs quantum dash lasersApplied Physics Letters201911
22Dynamic performance and reflection sensitivity of quantum dot distributed feedback lasers with large optical mismatchPhotonics Research202111
23Realities and challenges of III-V/Si integration technologies201911
24Rare-Earth Monopnictide Alloys for Tunable, Epitaxial, Designer PlasmonicsACS Photonics20189
25A Linear Microwave Electro-Optic Front End With SiGe Distributed Amplifiers and Segmented Silicon Photonic Mach–Zehnder ModulatorIEEE Transactions on Microwave Theory and Techniques20198
26Quantum dot microcavity lasers on silicon substratesSemiconductors and Semimetals20197
27A 0.5-20 GHz RF Silicon Photonic Receiver with 120 dB•Hz2/3 SFDR using Broadband Distributed IM3 Injection Linearization20196
28Bi1xSbx thin films on Si(111)">Composition-dependent structural transition in epitaxial Bi1xSbx thin films on Si(111)Physical Review Materials20196
29A 1 to 20 GHz Silicon-Germanium Low-Noise Distributed Driver for RF Silicon Photonic Mach-Zehnder Modulators20195
30A Distributed Low-Noise Amplifier for Broadband Linearization of a Silicon Photonic Mach–Zehnder ModulatorIEEE Journal of Solid-State Circuits20215
31Low power 3D MEMS optical switches20093
32Chapter 5. Assessing the Need for High Impact Technology Research, Development & Deployment for Mitigating Climate ChangeCollabra20163
33Continuous Tuning of Gain Peak Linewidth Enhancement Factor from Negative to Positive with p Doping in InAs QD Laser on Si20183
34Vision-Based Indoor Positioning of a Robotic Vehicle with a Floorplan20183
35Low threshold current 1.3 µm Fabry-Perot III-V quantum dot lasers on (001) Si with superior reliability20183
36Quadruple reduction of threshold current density for micro-ring quantum dot lasers epitaxially grown on (001) Si20183
37On-Chip Detection from Directly Modulated Quantum Dot Microring Lasers on Si20182
38Low Linewidth Enhancement Factor and High Optical Feedback Resistance of p-Doped Silicon Based Quantum Dot Lasers20181
39High performance and reliable 1.3 μm InAs quantum dot lasers epitaxially grown on Si20181
40NRZ and PAM-4 Direct Modulation of <tex>$1.3\ \mu\mathrm{m}$</tex> Quantum Dot Lasers Grown Directly on On-Axis (001) Si20181
41Relative intensity noise of silicon-based quantum dot lasers20191
421.3 μm regrown quantum-dot distributed feedback lasers on (001) Si: a pathway to scale towards 1 Tbit/s20211
43Thermally insensitive determination of the chirp parameter of InAs/GaAs quantum dot lasers epitaxially grown onto silicon20191
44A Low-noise High-channel-count 20 GHz Passively Mode Locked Quantum Dot Laser Grown on Si20191
451.3 qm tunable quantum dot lasers20201
46Quantum Dot Avalanche Photodetector on Si Substrate20201
47Gain Characterization of p-Doped 1.3 μm InAs Quantum Dot Lasers on Silicon: Theory and Experiment20180
48Physical Properties of 1.3 μm InAs-Based Quantum Dot Laser on Silicon20180
49InAs Quantum dot Lasers Epitaxially Grown on On-Axis (001) Silicon20180
509 GHz passively mode locked quantum dot lasers directly grown on Si20180