Physicists fight laser chaos with quantum chaos to improve laser performance
To tame chaos in powerful semiconductor lasers, which causes instabilities, scientists have introduced another kind of chaos.
To tame chaos in powerful semiconductor lasers, which causes instabilities, scientists have introduced another kind of chaos.
Optics & Photonics
Aug 16, 2018
3
294
A nanostructured gate dielectric may have addressed the most significant obstacle to expanding the use of organic semiconductors for thin-film transistors. The structure, composed of a fluoropolymer layer followed by a nanolaminate ...
Nanophysics
Aug 8, 2018
0
146
UCLA scientists and engineers have developed a new process for assembling semiconductor devices. The advance could lead to much more energy-efficient transistors for electronics and computer chips, diodes for solar cells ...
Nanophysics
Jun 11, 2018
0
489
Researchers at Duke University and North Carolina State University have demonstrated the first custom semiconductor microparticles that can be steered into various configurations repeatedly while suspended in water.
General Physics
May 3, 2018
1
96
Physicists at the University of Warwick have today, Thursday 19th April 2018, published new research in the fournal Science today 19th April 2018 (via the Journal's First Release pages) that could literally squeeze more power ...
General Physics
Apr 19, 2018
0
581
UC Berkeley engineers have built a bright-light emitting device that is millimeters wide and fully transparent when turned off. The light emitting material in this device is a monolayer semiconductor, which is just three ...
Condensed Matter
Mar 26, 2018
0
612
Some novel materials that sound too good to be true turn out to be true and good. An emergent class of semiconductors, which could affordably light up our future with nuanced colors emanating from lasers, lamps, and even ...
General Physics
Mar 19, 2018
1
229
For the first time, researchers isolated and characterized atomically thin 2-D crystals of pentagons bonded together in palladium diselenide (PdSe2). The research confirmed predictions that the puckered structure would be ...
Nanomaterials
Mar 1, 2018
0
319
In an advance that could push cheap, ubiquitous solar power closer to reality, University of Michigan researchers have found a way to coax electrons to travel much further than was previously thought possible in the materials ...
Materials Science
Jan 17, 2018
7
2212
A nanostructured gate dielectric may have addressed the most significant obstacle to expanding the use of organic semiconductors for thin-film transistors. The structure, composed of a fluoropolymer layer followed by a nanolaminate ...
Nanophysics
Jan 12, 2018
1
391