With over 10 years volume manufacturing experience and over 50,000,000 VCSELs operational in the field Advanced Optical Components leads the industry with its reliability information, application notes and technical papers.
This page brings together information presented at SPIE, in magazines and at conferences over the last 10 years. It also contains application notes from driving the very latest 10Gb and 4Gb VCSELs to pulsing VCSELs in high peak power sensing circuits.
The information is shown in reverse chronological order with the latest, most relevant publications shown at the top of each section.
Designing with the AOC 10Gbps TOSA and ROSA
Operating Recommendations for the 4192-581 (4Gb) VCSEL
VCSEL Optical Modes
VCSELs in Various Sensor Applications
Modulating AOC Oxide Isolated VCSELs
Ethernet Enabled AC Detector Test System
High Speed Characteristics of VCSELs
Pulsed Operation of VCSELs for High Peak Powers
DC Interface Examples for VCSELs
VCSEL Packaging for Data Communication Transceiver Design
Modulating VCSELs
VCSEL SPICE model
Cleaning TOSAs and ROSAs
VCSEL Array Chip Qualification (2007)
10 Gb Oxide Isolated VCSEL Reliability Report
An Atlas of ESD Failure Signatures in Vertical Cavity Surface Emitting Lasers
Reliability of Various Size Oxide Aperture VCSELs
Nanoscale Materials Characterisation of Degradation in VCSELs
2.5Gbps Oxide Isolated VCSEL Reliability Report
LC TOSA & ROSA Telcordia Qualification Report
850nm Proton VCSEL Reliability Study
Advanced Optical Components – Quality Manual
VCSEL Proliferation
AOC Introduces ADVANTILAZE New Sensor Technology
AOC Moving Forward: The Impact of Materials Behaviour
A plot twist: The continuing story of VCSELs at AOC
VCSELs at Advanced Optical Components: The Story Continues
The VCSELs are coming
Beyond 850nm: Progress at Other Wavelengths and Implications from the Standard
Commercialisation of AOC’s VCSEL Technology: Further Developments
VCSELs in the Information Age
Commercialisation of AOC’s VCSEL Technology
Vertical Cavity Laser: Packaging Flexibility propels VCSELs beyond Telecommunications
Manufacturability of VCSELs
Effect of Launch Conditions on Power Penalties in Gigabit Links Using 62.5μm Core Fibers 
