Methods of laser optical pumping suitable for producing polarized nuclei for targets in nuclear structure physics experiments have been developed in the past few years.
This work investigates the application of laser programming technology to gallium arsenide digital integrated circuits.
We demonstrate the projection patterning of Al by laser activated metal-organic chemical vapor deposition.
We examine various strategies designed to assure the reliability of semiconductor lasers intended for an application in which the design lifetime is long, replacement of redundancy is impractical
We present several laser sources dedicated to advanced microwave photonic applications. A quantum-dash mode-locked laser delivering a high-power, ultra-stable pulse train is first described.
The heterogeneous integration of III-V semiconductor lasers on a silicon waveguide platform using DVS-BCB adhesive bonding is reviewed.
The speckle pattern in the image of a coherently illuminated and diffusely reflecting object has been analyzed by Enloe1.
Laser alloying is a material processing method which utilizes the high power density available from focused laser sources to melt metal coatings and a portion of the underlying substrate.
Laser technology during the 20th century is reviewed emphasizing the laser's evolution from science to technology and subsequent contributions of laser technology to science.
An experiment to evaluate lightwave technology as a means for providing inexpensive, wideband, reliable entrance links between remote satellite earth stations and video/telephone operating centers
