Photonics
A field that began with the invention of the LASER in the early 1960's, promises a world in which light can be used to perform many of the everyday functions that we generally achieve in sensing and communicating.

Compound semiconductor research has demonstrated that lasers, modulators/switches, and photodetectors can be very small and highly efficient devices that offer revolutionary capabilities previously unimaginable. These photonics devices are the core of today's telecommunication systems.

Just as elemental silicon has fueled the revolution in microelectronics, compound semiconductors (with their unique ability to act as efficient emitters of light) have powered a revolution in photonics.

Matrix-addressable 8x8 VCSEL array

Sandia National Laboratories, motivated by a vision for realizing the "integrated microsystems" of the future (i.e., an entire multi-function system on a semiconductor chip), has become an internationally recognized leader in photonics technology.

Extensive materials growth and semiconductor fabrication facilities, as well as innovative new concepts in photonics devices and systems, lie at the heart of our Compound Semiconductor Research Laboratory (CSRL).