Show
Sort by
-
Simple-to-fabricate and highly efficient spot-size converters using antiresonant reflecting optical waveguides.
-
A new spot-size converter concept using fiber-matched antiresonant reflecting optical waveguides.
-
Oxide-confined laser diodes with an integrated spot-size converter
-
Mode-expanded 1.55-mu m InP-InGaAsP Fabry-Perot lasers using ARROW waveguides for efficient fiber coupling
-
Electrically pumped grating-assisted resonant-cavity Light-Emitting Diodes
-
Experimental demonstration of all-optical regeneration using an MMI-SOA
-
All-optical 2R regeneration based on integrated asymmetric Mach-Zehnder interferometer incorporating MMI-SOA.
-
An out-of-plane grating coupler for efficient butt-coupling between compact planar waveguides and single-mode fibers.
-
1.55-mu m InP-InGaAsP Fabry-Perot lasers with integrated spot size converters using antiresonant reflecting optical waveguides.
-
InGaAsP-InP 1.55 µm lasers with integrated mode expanders using fiber-matched leaky waveguides
-
A novel 2R regenerator based on an asymmetric Mach-Zehnder interferometer incorporating an MMI-SOA
-
Experimental demonstration of 15 dB extinction ratio improvement in a new 2R optical regenerator based on an MMI-SOA
-
A high-efficiency out-of-plane fibre coupler for coupling to high index contrast waveguides
-
Multi quantum well (MQW) lasers at 1550 nm fabricated with a single epitaxial selective growth step by MOVPE without waveguide etching
-
An out-of-plane grating coupler for efficient butt-coupling between compact planar waveguides and single-mode fibers.
-
A high-efficiency out-of-plane fibre coupler for coupling to high contrast waveguides.
-
Successful demonstration of active-passive integration technology by selective area growth for realization of photonic IC's.
-
Experimental demonstrating of 15 dB extinction ratio improvement in a new 2R optical regenerator based on a MMI-SOA.
-
Monolithically integrated multi-wavelength laser by selective area growth with metal organic vapour phase epitaxy.
-
4mW micro cavity LED at 650nm on germanium substrates.
-
Substrate-removed 850-nm RCLEDs and small core (63/125 µm) plastic optical fibers for optical data communication
-
InP-based PIC for an optical phased array antenna at 1.06 µm
-
Realisation of a phased-array multi-wavelength laser using hybridly integrated PICs
-
First demonstration of a 980nm oxide confined laser with integrated spot size converter
-
First demonstration of 980 nm oxide confined laser with integrated spot size converter.
-
Demonstration of a novel type of tapered laser based on lateral selective wet oxidation.
-
InP 1.3 ?m microcavity LEDs with high quantum efficiency.
-
InP-based PIC for an optical phased-array antenna at 1.06 µm
-
InAlGaP microcavity LEDs on Ge-substrates
-
High efficiency InAlGaP microcavity LEDs on Ge-substrates
-
InAlGaP microcavity LEDs on Ge-substrates
-
AlGaInP microcavity light-emitting diodes at 650 nm on Ge substrates.
-
First demonstration of 980nm oxide confined laser with integrated spot size converter.
-
InP-based 1300nm microcavity LEDs with 9% quantum efficiency.
-
Packaged hybrid integrated phased-array multi-wavelength laser.
-
InP 1.3 mu m microcavity LEDs with high quantum efficiency.
-
Dynamics of microcavity light emitters
-
Spot size converters for low cost PICs
-
High Q InGaAsP ring resonator filters
-
Realisation of highly efficient and high-speed Resonant Cavity LED for coupling to Plastic Optical Fibres
-
Microcavity LED-based parallel data link using small-diameter (125 µm) plastic optical fibres
-
Optical data communication using substrate removed 850 nm RCLEDS and small core (63/125 µm) plastic optical fibres
-
Electrically pumped photonic crystal micro-cavity light emitting diodes.
-
Holographically defined grating assisted Micro-cavity light emitting diodes.
-
INP-based microcavity light emitting diodes emitting diodes emitting at 1. 3 µm and 1. 55 µm.
-
Elimination of crosstalk in the common amplifier of a multi-wavelength source by gain clamping.
-
Realisation of highly efficient 850nm top emitting resonant cavity light emitting diodes.
-
Realization and characterization of 8 x 8 resonant cavity LED arrays mounted onto CMOS drivers for POF-based interchip interconnections.
-
Resonant cavity LED's optimized for coupling to polymer optical fibers.
-
Alternative approaches to LED printers.
-
High efficiency microcavity LEDs.
-
Flip chip mounted substrate-removed 850nm bottom-emitting 8x8 MCLED arrays with selectively oxidised current windows.
-
Wet lateral oxidtion of AlGaAs for passive and active guided wave components.
-
InP-based microcavity LED emitting at 1320 nm with 5% external quantum efficiency.
-
Microcavity LEDs coupled to POF arrays for parallel optical interconnects.
-
Wavelength dependent routing in WDM optical communication: implications on components, systems and networks.
-
Demonstration of multi-wavelength laser with a gain-clamped output amplifier.
-
Demonstration of phased-array laser with gain-clamped output amplifier.
-
Realisation of multi-wavelength phased array laser by hybrid coupling of active and passive waveguide chips.
-
InP-based modulator array antennas at 1.06 µm
-
Preliminary results on high total dose testing of semiconductor photonic sources : a comparison of VCSELs and resonant-cavity LEDs
-
Microcavity LED-based parallel data link using small diameter (125 µm) plastic optical fibers
-
Microcavity LEDs for optical interconnects.
-
Microcavity LEDs with an overall efficiency of 4% into a numerical aperture of 0.5.
-
InP microcavity LED emitting at 1.55mm.
-
InP-based LED emitting at 1.55mm with 6.8% external QE.
-
High efficiency InGaAsP/InP phase modulator at 1.06 mm.
-
An integrated optical add/drop multiplexer in InP based on elliptic couplers and bragg grating reflector
-
Integrated optical elliptic couplers: Modeling, design, and applications.
-
Micro-cavity LED's and their application in optical interconnect research within the IUAP-24 project (Invited Paper).
-
Micro-cavity LED's and their application in optical interconnect research within the IUAP-24 project (invited).
-
Active/passive integration by MOVPE selective area growth for multiwavelength lasers.
-
Compact low loss 8x10 GHz polarisation independent WDM receiver
-
Emitters for optical interconnection
-
New waveguide-fiber coupling method for fiber arrays based on integrated elliptic couplers
-
A very compact InP-based integrated optic Mach-Zehnder interferometer with a delay difference of 74 ps.
-
Mode expansion simulation of vertical tapers in InP: comparison with experimental results and optimisation
-
Elliptic waveguide beam focusing and collimating elements in InP: analysis and experiment
-
Integrated 1 GHz 4-channel InP phasar based WDM-receiver with Si bipolar frontend array
(1995) ECOC '95 : 21st European conference on optical communication, vols 1-4, including symposium photonic versus electronic technologies in switching and interconnection ; symposium on broadband networks for video and multimedia services, vols 1-2 : regular papers and invited papers ; vol 3 : post-deadline papers ; vol 4 : tutorials. 2. p.211-214 -
Elliptic waveguide beam focusing and collimating elements in InP: Analysis and experiment.
-
Monolithic integration of a single quantum well laser diode and a mode-size convenor using shadow-masked metalorganic vapour phase epitaxial growth.
-
Vertically tapered InGaAsP/InP waveguides and lasers resulting in low-loss fibre-chip coupling.
-
MONOLITHIC INTEGRATION OF A SINGLE-QUANTUM-WELL LASER-DIODE AND A MODE-SIZE CONVERTER USING SHADOW-MASKED METALORGANIC VAPOR-PHASE EPITAXIAL-GROWTH.
-
Monolithic integration of a spot size transformer with a planar buried heterostructure in GaAsP/InP-laser using the shadow masked growth technique.
-
GAAS SINGLE-QUANTUM WELL GRIN-SCH RIDGE LASERS GROWN ON INP BY MOVPE
-
Heteroepitaxial growth of (A1)GaAs on INP by MOVPE
-
METALORGANIC VAPOR-PHASE HETEROEPITAXIAL GROWTH OF (AL)GAAS ON INP FOR DEVICE APPLICATIONS