Brighter fluorescent markers allow for finer imaging
Researchers at the McKelvey School of Engineering at Washington University in St. Louis have pioneered a new technique that will enable higher-resolution imaging of very small objects like neurons. The technique, which improves on an existing method.....»»
Hisense shows off massively bright 98- and 100-inch TVs
Hisense's 2024 TV lineup can be summed up in two words: bigger, brighter -- with brightness levels at 5,000 nits and higher and screen sizes up to 110 inches......»»
Could LG’s 3000-nit OLED finally end the brightness wars?
LG Display's newest OLED panel technology increases peak brightness to 3,000 nits, which is brighter than current non-OLED TVs......»»
Hisense shows off massively bright 98- and 100-inch mini-LED TVs
Hisense's 2024 TV lineup can be summed up in two words: bigger, brighter -- with brightness levels at 5,000 nits and higher and screen sizes up to 110 inches......»»
NASA/JAXA XRISM mission reveals its first look at X-ray cosmos
The Japan-led XRISM (X-ray Imaging and Spectroscopy Mission) observatory has released a first look at the unprecedented data it will collect when science operations begin later this year......»»
Nanostructured flat lens uses machine learning to "see" more clearly, while using less power
A front-end lens, or meta-imager, created at Vanderbilt University can potentially replace traditional imaging optics in machine-vision applications, producing images at higher speed and using less power......»»
Single-emitter super-resolved imaging of radiative decay rate enhancement in dielectric gap nanoantennas
In an era where understanding and manipulating light at the nanoscale is increasingly crucial, a paper in Light: Science & Applications reveals a significant leap forward......»»
Astrophysicists explore links between atmospheric oxygen and detecting extraterrestrial technology on distant planets
In the quest to understand the potential for life beyond Earth, researchers are widening their search to encompass not only biological markers, but also technological ones. While astrobiologists have long recognized the importance of oxygen for life.....»»
Tissue-integrated sensitive glucose nanosenor uses inactive glucose oxidase enzyme for continuous monitoring
Monitoring glucose levels is one of the key elements in health monitoring. A research team from the University of California, Berkeley, has now developed a battery-independent fluorescent nanosensor based on single-wall carbon nanotubes and an inacti.....»»
Apple Vision Pro 2 rumored to get brighter displays in 2027
A supply chain report suggests Apple could implement the brighter, more efficient RGB OLEDoS displays in a second-generation Apple Vision Pro due to release in 2027.Apple Vision ProThe existing Apple Vision Pro set to release in early 2024 uses white.....»»
Images hidden in noise revealed by a quantum-inspired phase-imaging method
Researchers at the University of Warsaw's Faculty of Physics with colleagues from Stanford University and Oklahoma State University have introduced a quantum-inspired phase-imaging method based on light intensity correlation measurements that is robu.....»»
Development of tissue molecular imaging technique using multiple probes at hundreds of microns
Researchers have shown it is possible to image small animal tissue clearly to several hundred micrometers using multi-probe imaging, reports a recent study in Scientific Reports......»»
Have the M3 MacBook Pros made the Mac Studio irrelevant?
The Apple Mac Studio and MacBook Pro can serve as your desktop PC, with roughly identical performance and prices. Which is better comes down to finer points......»»
Ultra-small, shape-shifting GEMS offer an easier and cheaper way to improve MRI imaging
Microscopic magnetic probes that change shape in response to their environment may greatly enhance magnetic resonance imaging (MRI). However, producing the probes, which are still experimental and have not yet been used in humans, has required access.....»»
Wearable sensors for advanced plant phenotyping
In response to increasing global food demands, improving crop yields through efficient phenotyping is imperative. Optical imaging-based phenotyping has markedly progressed plant breeding and crop management, yet encounters limitations in spatial reso.....»»
Astronomers look billions of years into the past to study Pandora"s Cluster
Two McMaster astronomers have used recent deep imaging data from the James Webb Space Telescope to look 3.5 billion years into the past to study a remote giant cluster of galaxies......»»
X-ray imaging of The Night Watch reveals previously unknown lead layer
Rembrandt may have used lead-rich oil to prep his canvas and protect it from humidity. Enlarge / Rembrandt's The Night Watch underwent many chemical and mechanical alterations over the last 400 years. (credit: Public domain).....»»
Harnessing AI for non-destructive in situ root imaging and phenotyping
Roots are essential for plant growth, but traditional methods of studying roots are resource-intensive and damaging. With advancements in image processing techniques, innovative methods for in situ root studies have emerged, providing non-destructive.....»»
Embedding nanodiamonds in polymer can advance quantum computing and biological studies
A nitrogen-vacancy (NV) center is a defect in the crystal structure of diamond, where a nitrogen atom replaces a carbon atom in the diamond lattice and a neighboring site in the lattice is vacant. This and other fluorescent defects in diamond, known.....»»
Glassy shell of microscopic algae inspires tiny ultrasound detectors for medical imaging
A multidisciplinary team of researchers from Skoltech has discovered the resonance frequencies of diatom frustules. These intricately structured silicon dioxide shells of single-celled microalgae provide a promising model for nature-inspired electron.....»»
Integrating AI with super-resolution microscopy for advancements in cellular biology
In 2014, the Nobel Prize in Chemistry celebrated the breakthroughs in super-resolution microscopy, a technology that allows us to capture highly detailed images of small parts of cells using fluorescent microscopy. Despite its success, the resolution.....»»