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Nanopillar quantum well lasers directly grown on silicon and emitting at silicon-transparent wavelengths Journal article
Lu F., Bhattacharya I., Sun H., Tran T.-T.D., Ng K.W., Malheiros-Silveira G.N., Chang-Hasnain C.. Nanopillar quantum well lasers directly grown on silicon and emitting at silicon-transparent wavelengths[J]. Optica, 2017, 4(7), 717-723.
Authors:  Lu F.;  Bhattacharya I.;  Sun H.;  Tran T.-T.D.;  Ng K.W.; et al.
Favorite | TC[WOS]:46 TC[Scopus]:51 | Submit date:2019/04/08
Integrated Optics Devices  Quantum-well, -wire And -dot Devices  Semiconductor Lasers  Subwavelength Structures, nanoStructures  Vertical Emitting Lasers  
Ultracompact Position-Controlled InP Nanopillar LEDs on Silicon with Bright Electroluminescence at Telecommunication Wavelengths Journal article
Deshpande S., Bhattacharya I., Malheiros-Silveira G., Ng K.W., Schuster F., Mantei W., Cook K., Chang-Hasnain C.. Ultracompact Position-Controlled InP Nanopillar LEDs on Silicon with Bright Electroluminescence at Telecommunication Wavelengths[J]. ACS Photonics, 2017, 4(3), 695-702.
Authors:  Deshpande S.;  Bhattacharya I.;  Malheiros-Silveira G.;  Ng K.W.;  Schuster F.; et al.
Favorite | TC[WOS]:23 TC[Scopus]:29 | Submit date:2019/04/08
Iii−v  Inp  Leds  Mocvd Growth  Nanowire Laser  Nanowire/nanopillar  Photonic Integrated Circuit  Quantum-well  Silicon Photonics  
Effects of rapid thermal annealing on the device characteristics of quantum well infrared photodetectors Journal article
Sengupta D.K., Fang W., Malin J.I., Curtis A.P., Horton T., Kuo H.C., Turnbull D., Lin C.H., Li J., Hsieh K.C., Chuang S.L., Adesida I., Feng M., Bishop S.G., Stillman G.E., Gibson J.M., Chen H., Mazumder J., Liu H.C.. Effects of rapid thermal annealing on the device characteristics of quantum well infrared photodetectors[J]. Journal of Electronic Materials, 1997, 26(1), 43-51.
Authors:  Sengupta D.K.;  Fang W.;  Malin J.I.;  Curtis A.P.;  Horton T.; et al.
Favorite | TC[WOS]:2 TC[Scopus]:3 | Submit date:2019/04/08
Dark Current Characteristics  Multiple Quantum Well Infrared Photodectors (Qwips)  Quantum Efficiency  Rapid Thermal Annealing (Rta)  Red Shift  
Growth and characterization of n-type InP/InGaAs quantum well infrared photodetectors for response at 8.93 μm Journal article
Sengupta D.K., Jackson S.L., Curtis A.P., Fang W., Malin J.I., Horton T.U., Hartman Q., Kuo H.C., Thomas S., Miller J., Hsieh K.C., Adesida I., Chuang S.L., Feng M., Stillman G.E., Chang Y.C., Wu W., Tucker J., Chen H., Gibson J.M., Mazumder J., Li L., Liu H.C.. Growth and characterization of n-type InP/InGaAs quantum well infrared photodetectors for response at 8.93 μm[J]. Journal of Electronic Materials, 1997, 26(12), 1376-1381.
Authors:  Sengupta D.K.;  Jackson S.L.;  Curtis A.P.;  Fang W.;  Malin J.I.; et al.
Favorite | TC[WOS]:7 TC[Scopus]:7 | Submit date:2019/04/08
Gas Source Molecular Beam Epitaxy (Gsmbe)  Inp/ingaas  Quantum-well Infrared Photodectors (Qwips)  
Growth and characterization of InGaAs/InP p-quantum-well infrared photodetectors with extremely thin quantum wells Journal article
Sengupta D.K., Jackson S.L., Curtis A.P., Fang W., Malin J.I., Horton T.U., Kuo H.C., Moy A., Miller J., Hsieh K.C., Cheng K.Y., Chen H., Adesida I., Chuang S.L., Feng M., Stillman G.E., Wu W., Tucker J., Chang Y.C., Li L., Liu H.C.. Growth and characterization of InGaAs/InP p-quantum-well infrared photodetectors with extremely thin quantum wells[J]. Journal of Electronic Materials, 1997, 26(12), 1382-1388.
Authors:  Sengupta D.K.;  Jackson S.L.;  Curtis A.P.;  Fang W.;  Malin J.I.; et al.
Favorite | TC[WOS]:1 TC[Scopus]:1 | Submit date:2019/04/08
Gas Source Molecular Beam Epitaxy (Mbe)  Ingaas/inp  Quantum Well Infrared Photodetectors Qwips  
Growth and characterization of InGaAs/InP p-quantum-well infrared photodetectors with extremely thin quantum wells Journal article
Sengupta D.K., Jackson S.L., Curtis A.P., Fang W., Malin J.I., Horton T.U., Kuo H.C., Moy A., Miller J., Hsieh K.C., Cheng K.Y., Chen H., Adesida I., Chuang S.L., Feng M., Stillman G.E., Wu W., Tucker J., Chang Y.C., Li L., Liu H.C.. Growth and characterization of InGaAs/InP p-quantum-well infrared photodetectors with extremely thin quantum wells[J]. Journal of Electronic Materials, 1997, 26(12), 1382-1388.
Authors:  Sengupta D.K.;  Jackson S.L.;  Curtis A.P.;  Fang W.;  Malin J.I.; et al.
Favorite | TC[WOS]:1 TC[Scopus]:1 | Submit date:2019/04/08
Gas Source Molecular Beam Epitaxy (Mbe)  Ingaas/inp  Quantum Well Infrared Photodetectors Qwips  
Growth and characterization of n-type InP/InGaAs quantum well infrared photodetectors for response at 8.93 μm Journal article
Sengupta D.K., Jackson S.L., Curtis A.P., Fang W., Malin J.I., Horton T.U., Hartman Q., Kuo H.C., Thomas S., Miller J., Hsieh K.C., Adesida I., Chuang S.L., Feng M., Stillman G.E., Chang Y.C., Wu W., Tucker J., Chen H., Gibson J.M., Mazumder J., Li L., Liu H.C.. Growth and characterization of n-type InP/InGaAs quantum well infrared photodetectors for response at 8.93 μm[J]. Journal of Electronic Materials, 1997, 26(12), 1376-1381.
Authors:  Sengupta D.K.;  Jackson S.L.;  Curtis A.P.;  Fang W.;  Malin J.I.; et al.
Favorite | TC[WOS]:7 TC[Scopus]:7 | Submit date:2019/04/08
Gas Source Molecular Beam Epitaxy (Gsmbe)  Inp/ingaas  Quantum-well Infrared Photodectors (Qwips)  
Effects of rapid thermal annealing on the device characteristics of quantum well infrared photodetectors Journal article
Sengupta D.K., Fang W., Malin J.I., Curtis A.P., Horton T., Kuo H.C., Turnbull D., Lin C.H., Li J., Hsieh K.C., Chuang S.L., Adesida I., Feng M., Bishop S.G., Stillman G.E., Gibson J.M., Chen H., Mazumder J., Liu H.C.. Effects of rapid thermal annealing on the device characteristics of quantum well infrared photodetectors[J]. Journal of Electronic Materials, 1997, 26(1), 43-51.
Authors:  Sengupta D.K.;  Fang W.;  Malin J.I.;  Curtis A.P.;  Horton T.; et al.
Favorite | TC[WOS]:2 TC[Scopus]:3 | Submit date:2019/04/08
Dark Current Characteristics  Multiple Quantum Well Infrared Photodectors (Qwips)  Quantum Efficiency  Rapid Thermal Annealing (Rta)  Red Shift