Laser Photonics Corp., a global leading industrial company in high-tech laser systems for laser cleaning, announces the upcoming release of its new product at MRO Americas in Dallas, Texas on April 26-28, 2022.
Liquid droplets and very fine particles can trap light – similar to how light can be caught between two mirrors. As a result, the intensity of the light inside them is amplified.
Materials scientists may soon be able to control material properties with light.
Displayed over roof tops and in solar farms, silicon-based solar cells are, so far, one of the most efficient systems in generating electricity from sunlight, but their fabrication can be expensive and energy demanding, aside from being heavy and bulky. The alternative solution of lower-cost thin film solar cells also brings the caveat of being mainly composed of toxic elements such as lead or cadmium, or containing scarce elements such as indium or tellurium.
As a key precursor in the formation of new particles, sulfuric acid (H2SO4) plays an important role in the formation of aerosols and clouds in the atmosphere. Gas-phase sulfuric acid molecules can easily form molecular clusters at the beginning of nucleation through hydrogen bonding and other interactions.
The photonic assembly service provider PHIX builds on Nanoscribe’s high-performance 3D printing solution with alignment capabilities to offer 3D-printed standard lensed fiber arrays.
The latest research published in Materials focuses on the optoelectronic properties of a novel type of Polyindole thin film substrate.
A magnetic field can be used to switch nanolasers on and off, shows new research from Aalto University. The physics underlying this discovery paves the way for the development of optical signals that cannot be disturbed by external disruptions, leading to unprecedented robustness in signal processing.
Invisibility devices may soon no longer be the stuff of science fiction. A new study published in the De Gruyter journal Nanophotonics by lead authors Huanyang Chen at Xiamen University, China, and Qiaoliang Bao, suggests the use of the material Molybdenum Trioxide (a-MoO3) to replace expensive and difficult to produce metamaterials in the emerging technology of novel optical devices.
3D printing is highly desirable for building optical sensors as it offers a variety of design and manufacturing possibilities. To investigate the use of 3D printing for this purpose, a team of researchers writing in Composites Part B: Engineering has presented the possibility of 3D printing 4D-functionalized photonic devices, including Fresnel lenses.
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