Current Infrared Light News and Events | Page 2

Current Infrared Light News and Events, Infrared Light News Articles.
Sort By: Most Relevant | Most Viewed
Page 2 of 25 | 1000 Results
Astronomers dissect the anatomy of planetary nebulae using Hubble Space Telescope images
Images of two iconic planetary nebulae taken by the Hubble Space Telescope are revealing new information about how they develop their dramatic features. Researchers from Rochester Institute of Technology and Green Bank Observatory presented new findings about the Butterfly Nebula (NGC 6302) and the Jewel Bug Nebula (NGC 7027) at the 237th meeting of the American Astronomical Society on Friday, Jan. 15, 2021. (2021-01-19)

Lasers & molecular tethers create perfectly patterned platforms for tissue engineering
Researchers at the University of Washington have developed a technique to modify naturally occurring biological polymers with protein-based biochemical messages that affect cell behavior. Their approach, published the week of Jan. 18, 2021 in the Proceedings of the National Academy of Sciences, uses a near-infrared laser to trigger chemical adhesion of protein messages to a scaffold made from biological polymers such as collagen, a connective tissue found throughout our bodies. (2021-01-18)

RUDN University and RLT scientists: Light, magnetic field, and ultrasound could help fight COVID-19
A team of researchers from RUDN University and RLT suggested restoring normal levels of lymphocytes in patients with COVID-19 and other viral diseases by subjecting them to the combined influence of light, magnetic field, and ultrasound. (2021-01-18)

Temperature scanners of limited value in detecting Covid-19
Making people stand in front of a scanner to have their body temperature read can result in a large number of false negatives, allowing people with Covid-19 to pass through airports and hospitals undetected. (2021-01-14)

Galaxies hit single, doubles, and triple (growing black holes)
When three galaxies collide, what happens to the huge black holes at the centers of each? A new study using NASA's Chandra X-ray Observatory and several other telescopes reveals new information about how many black holes are furiously growing after these galactic smash ups. (2021-01-14)

High-sensitivity nanophotonic sensors with passive trapping of analyte molecules in hot-spots
Optical sensing which captures fingerprint information of chemical or biological substances with light, plays a crucial role in many areas including environmental sensing, medical diagnostics and homeland security. Scientists from University at Buffalo demonstrated an optical sensor design which utilizes nano-scale trenches to passively concentrate and trap trace analytes in a solution, leading to the capability of detecting picogram level biomolecules such as glucose and amino acids. The devices also achieved effective trapping of nano-particles. (2021-01-13)

Shine on: Avalanching nanoparticles break barriers to imaging cells in real time
A team of researchers co-led by Berkeley Lab and Columbia University has developed a new material called avalanching nanoparticles that, when used as a microscopic probe, offers a simpler approach to taking high-resolution, real-time snapshots of a cell's inner workings at the nanoscale. (2021-01-13)

The earliest supermassive black hole and quasar in the universe
The most distant quasar known has been discovered. The quasar, seen just 670 million years after the Big Bang, is 1000 times more luminous than the Milky Way, and is powered by the earliest known supermassive black hole, which weighs in at more than 1.6 billion times the mass of the Sun. Seen more than 13 billion years ago, this fully formed distant quasar is also the earliest yet discovered. (2021-01-12)

More than just a sun tan: Ultraviolet light helps marine animals to tell the time of year
Changes in daylength are a well-established annual timing cue for animal behavior and physiology. An international collaboration of scientists led by Kristin Tessmar-Raible at the Max Perutz Labs, a joint venture of the University of Vienna and the Medical University of Vienna, now shows that, in addition to daylength, marine bristle worms sense seasonal intensity changes of UVA/deep violet light to adjust the levels of important neurohormones and their behavior. The study is published in Nature Ecology and Evolution. (2021-01-11)

USTC develops ultrahigh-performance plasmonic metal-oxide materials
In a study published in Advanced Materials, the researchers from Hefei National Laboratory for Physical Sciences at the Microscale, the University of Science and Technology of China of the Chinese Academy of Sciences, using an electron-proton co-doping strategy, invented a new metal-like semiconductor material with excellent plasmonic resonance performance. (2021-01-08)

Chandra studies extraordinary magnetar
In 2020, astronomers added a new member to an exclusive family of exotic objects with the discovery of a magnetar. New observations from NASA's Chandra X-ray Observatory help support the idea that it is also a pulsar, meaning it emits regular pulses of light. (2021-01-08)

High-flux table-top source for femtosecond hard X-ray pulses
Researchers at the Max Born Institute (MBI) in Berlin have now accomplished a breakthrough in table-top generation of femtosecond X-ray pulses by demonstrating a stable pulse train at kilohertz repetition rate with a total flux of some 10^12 X-ray photons per second. (2021-01-07)

A prognostic Alzheimer's disease blood test in the symptom-free stage
Using a blood test, a German-Dutch research team has predicted the risk of Alzheimer's disease in people who were clinically diagnosed as not having Alzheimer's disease but who perceived themselves as cognitively impaired (Subjective Cognitive Declined, SCD). The researchers analyzed blood samples from an SCD cohort supervised at the Alzheimer Center Amsterdam. Using a test developed in Bochum, they identified all 22 subjects at study entry who developed Alzheimer's dementia, thus the clinical symptoms, within six years. (2021-01-06)

3D-printed smart gel changes shape when exposed to light
Inspired by the color-changing skin of cuttlefish, octopuses and squids, Rutgers engineers have created a 3D-printed smart gel that changes shape when exposed to light, becomes ''artificial muscle'' and may lead to new military camouflage, soft robotics and flexible displays. The engineers also developed a 3D-printed stretchy material that can reveal colors when light changes, according to their study in the journal ACS Applied Materials & Interfaces. (2021-01-05)

Convex to concave: More metasurface moiré results in wide-range lens
The odd, wavy pattern that results from viewing certain phone or computer screens through polarized glasses has led researchers to take a step toward thinner, lighter-weight lenses. Called moiré, the pattern is made by laying one material with opaque and translucent parts at an angle over another material of similar contrast. (2021-01-04)

Uncovering how plants see blue light
Plants can perceive and react to light across a wide spectrum. New research from the UC Davis College of Biological Sciences shows how plants can respond to blue light in particular by revealing the structure of cryptochrome-2, the molecule that reacts to blue light. (2021-01-04)

Experiment takes 'snapshots' of light, stops light, uses light to change properties of matter
The team generated a movie of how light waves churn on their nanometer wavelength scale by imaging electrons that two light photons coming together cause to emit from the surface. (2020-12-23)

A blazar in the early universe
Observations with the continent-wide Very Long Baseline Array (VLBA) reveal previously unseen details in a jet of material ejected from the core of a galaxy seen as it was when the universe was only about 7% of its current age. (2020-12-22)

Bio-inspired endoscope provides 3D visible and near-infrared images simultaneously
Researchers have developed a new bio-inspired medical endoscope that can acquire 3D visible light and near-infrared fluorescence images at the same time. It features an optical design that combines the high-resolution 3D imaging of human vision with the mantis shrimp's capability to simultaneously detect multiple wavelengths of light. (2020-12-22)

Development of plaques in Alzheimer's disease resolved
In Alzheimer's disease patients, the protein amyloid-beta (Aβ) clumps up in the brain to form so-called fibrils. This has a toxic effect on the surrounding nerve cells. It is believed that immune cells compact the Aβ fibrils into what are known as plaques. It is now possible to track the development of these microscopically small structures in human using infrared microscopy. (2020-12-21)

Optoelectronic devices that emit warm and cool white light
A single semiconducting material can produce white light by emitting light across the visible spectrum. (2020-12-21)

Device refines analysis of materials for fuel cells and batteries
Developed at an Engineering Research Center supported by FAPESP, the novel spectroelectrochemical cell can be used to study the behavior of electrolytes and catalysts by means of X-rays and infrared or even visible light. (2020-12-21)

Goldilocks and the three quantum dots: Just right for peak solar panel performance
Maximizing the efficiency of renewable energy technology is dependent on creating nanoparticles with ideal dimensions and density, new simulations have shown. (2020-12-20)

Researchers deconstruct ancient Jewish parchment using multiple imaging techniques
Scientists in Romania used multiple, complementary imaging techniques to non-invasively study the composition of an aged Jewish parchment scroll. The various analyses can determine the types of materials used in the manuscript's manufacturing, providing historical context for objects of mysterious provenance. The research also offers insights into the item's degradation over time, including indications of previous repair attempts. All of this information helps conservators determine how best to restore such antiques to their original condition. (2020-12-18)

Inverted fluorescence
Fluorescence usually entails the conversion of light at shorter wavelengths to light at longer wavelengths. Scientists have now discovered a chromophore system that goes the other way around. When excited by visible light, the fluorescent dyes emit light in the ultraviolet region. According to the study published in the journal Angewandte Chemie, such light upconversion systems could boost the light-dependent reactions for which efficiency is important, such as solar-powered water splitting. (2020-12-18)

2D material controls light twice stronger
POSTECH research team identifies second-harmonics generation interference in 2D heterobilayers. (2020-12-17)

Most-distant galaxy helps elucidate the early universe
New work from an international team of astronomers improves our understanding of the most-distant known astrophysical object-- GN-z11, a galaxy 13.4 billion light-years from Earth. (2020-12-16)

A pair of lonely planet-like objects born like stars
An international research team led by the University of Bern has discovered an exotic binary system composed of two young planet-like objects, orbiting around each other from a very large distance. Although these objects look like giant exoplanets, they formed in the same way as stars, proving that the mechanisms driving star formation can produce rogue worlds in unusual systems deprived of a Sun. (2020-12-16)

UMBC researchers identify where giant jets from black holes discharge their energy
Scientists have disagreed about where powerful jets from black holes discharge their energy. A new study in Nature Communications uses standard statistical techniques and relies on very few assumptions to determine that the jets release their energy in an area called the molecular torus, which is much farther away from the black hole's center than another prime candidate, the broadline region. This finding has implications for how jets form, pick up speed, and become column-shaped. (2020-12-15)

When less is more: A single layer of atoms boosts the nonlinear generation of light
A wide array of technologies, ranging from lasers and optical telecommunication to quantum computing rely on nonlinear optical interaction. Typically, these nonlinear interactions, which allow a beam of light, for example, to change its frequency, are implemented by bulk materials. (2020-12-14)

Physics discovery leads to ballistic optical materials
A team led by a Purdue University scientist has found a way to create more efficient metamaterials using semiconductors and a novel aspect of physics that amplifies the activity of electrons. (2020-12-14)

When chemistry with green light mimics what happens in life
Taking inspiration from nature, researchers at Queensland University of Technology in Australia and Ghent University in Belgium created a green light-stabilised 3D polymer structure that unfolds itself when left in darkness - the first reported example of a reversible, light-triggered process to fold polymers into single chain nanoparticles. (2020-12-13)

Potential extreme condition history detector - recoverable PL achieved in pyrochlore
Photoluminescence (PL) is light emission from a substance after the absorption of photons stimulated by temperature, electricity, pressure, or chemistry doping. An international team of scientists led by Dr. Wenge Yang from Center for High Pressure Science &Technology Advanced Research (HPSTAR) presents a strong tricolor PL achieved in non-PL pyrochlore Ho2Sn2O7 through high pressure treatment. Interestingly the PL can be much enhanced after pressure release and recovered to ambient conditions. Their study is published in the recent issue of Physical Review Letters. (2020-12-11)

Researchers demonstrate nondestructive mid-infrared imaging using entangled photons
Researchers have shown that entangled photons can be used to improve the penetration depth of optical coherence tomography (OCT) in highly scattering materials. The method represents a way to perform OCT with mid-infrared wavelengths and could be useful for non-destructive testing and analysis of materials such as ceramics and paint samples. (2020-12-10)

Out with the old, in with the new
UVA Engineering Discovery Challenges Heat Transfer Paradigm That Guides Electronic and Photonic Device Design. (2020-12-09)

Magnesium contact ions stabilize the macromolecular structure of transfer RNA
In cells transfer RNA (tRNA) translates genetic information from the encoding messenger RNA (mRNA) for protein synthesis. New results from ultrafast spectroscopy and in-depth theoretical calculations demonstrate that the complex folded structure of tRNA is stabilized by magnesium ions in direct contact with phosphate groups at the RNA surface. (2020-12-09)

Less light, more trees assist migrating birds
Scientists from the Cornell Lab of Ornithology and Colorado State University used observations from the Lab's eBird citizen-science program to estimate the seasonal species richness of nocturnally migrating passerines within 333 well surveyed urban areas in the contiguous U.S. ''Richness'' is defined as the number of different species in an area. (2020-12-09)

Research develops new theoretical approach to manipulate light
The quest to discover pioneering new ways in which to manipulate how light travels through electromagnetic materials has taken a new, unusual twist. (2020-12-08)

Observing the ultrafast motion of atoms and electrons
Photo-induced electron transfer is central to numerous physical processes, for instance in the magnetization of materials. The quest to understand and control this ultrafast process has long been pursued in vain, with no answer to the question of whether electrons induce atomic motion, or vice versa. To answer this question, the atomic equivalent of the paradox of the chicken and the egg, a consortium of scientists used an X-ray laser (X-FEL) located in Stanford. (2020-12-07)

Research brief: Researchers develop unique process for producing light-matter mixture
In groundbreaking new research, an international team of researchers led by the University of Minnesota Twin Cities has developed a unique process for producing a quantum state that is part light and part matter. (2020-12-07)

Page 2 of 25 | 1000 Results
   First   Previous   Next      Last   
Brightsurf.com is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to Amazon.com.