Silicon photonics revolutionizes data transmission with faster, more efficient lasers integrated on silicon wafers.

CATALOG DESCRIPTION: Basic concepts of lasers; laser applications; gas and liquid lasers; solid-state lasers; semiconductor lasers; materials and devices; rate equations; laser gain and saturation; ...

intensely focussed spot required for many applications. It is also hard to scale up semiconductor lasers to very high output powers of hundreds of watts or kilowatts due to thermal problems.

The approach uses lasers and holograms to detect misalignments as small as 0.017 nanometers. Researchers at the University of ...

As great as silicon is for semiconductor applications, it has one weakness in that using it for lasers isn’t very practical. Never say never though, as it turns out that you can now grow lasers ...

the only semiconductor laser diodes produced for commercial applications are blue (InGaN) and red (AlInGaP). The choice of semiconductor material is determined by its optical properties and its ...

Such a beam holds promise for seeding hybrid ArF excimer lasers and could have significant applications in wafer ... the efficiency and precision of semiconductor lithography but also opens ...

In this module, you will learn the fundamental operating principles, design, fabrication techniques, and applications of two of the most widely used light-emitting devices in the world today - ...

Such a beam holds promise for seeding hybrid ArF excimer lasers and could have significant applications in wafer ... the efficiency and precision of semiconductor lithography but also opens ...