Innovations through hair-thin optical fibers
Scientists at the University of Bonn have built hair-thin optical fiber filters in a very simple way. They are not only extremely compact and stable, but also color-tunable. This means they can be used in quantum technology and as sensors for tempera.....»»
Quantum photonic technologies set to be more reliable with new interferometer
An increasing number of emerging quantum applications operate using optical technologies. Essentially, photons carry information at the speed of light and over long distances, making them good candidates for fast and secure communications and quantum.....»»
Finland"s wizards making food out of thin air
At a factory in Finland, the "farmers of the future" are making a new food protein by feeding a microbe air and electricity, proving that protein can be produced without traditional agriculture......»»
Streamlined microcomb design provides control with the flip of a switch
Light measurement devices called optical frequency combs have revolutionized metrology, spectroscopy, atomic clocks, and other applications. Yet challenges with developing frequency comb generators at a microchip scale have limited their use in every.....»»
OneTrust empowers organizations to govern data and AI without slowing down innovation
OneTrust announced new platform capabilities and enhancements to help organizations discover, secure, and responsibly use data. Available as part of the Company’s latest release, these innovations empower organizations to activate data responsi.....»»
Hurry! The Dyson Airstrait straightener has a rare discount
The Dyson Airstrait gets your hair from wet to dry and straight at the same time. The hair straightener is on sale from Best Buy for $400, for savings of $100......»»
Report: Ultra-thin iPhone coming in 2025 with new upscale form factor redesign
Apple is planning a major, iPhone X-style redesign for one of its 2025 iPhone models, according to a new report from The Information. The report corroborates what we’ve heard from other reporting concerning a new ‘iPhone Slim’ model being in.....»»
iFixit teardown reveals big change for the M4 iPad Pro’s repairability
Thanks to teardowns and durability (bend) testing, we’re learning a lot about the new ultra-thin iPad Pro’s design. Now, the folks at iFixit have performed their in-depth teardown, revealing a big internal change that could save “hours on repa.....»»
Will you buy an ultra-thin iPhone 17 if battery life is reduced? [Poll]
We learned new details about what Apple may ship as the new high-end iPhone in 2025 with a redesigned ultra-thin form factor. But with that change, we could see shorter battery life, particularly compared to the Pro Max model. Would an ultra-thin des.....»»
iPhone 16 Pro rumored to get hugely better ultra-wide sensor & optical zoom
Rumors of major camera changes to the iPhone 16 Pro lineup continue, with a leaker insisting there will be an ultra-wide sensor update and one for the telephoto's zoom.Rear cameras of the iPhone 15 Pro Max and iPhone 14 Pro MaxApple regularly makes u.....»»
Researchers identify the principle behind "soft mechanoluminescent complex"
A research team collaborated to identify the principle of an eco-friendly energy-based soft mechanoluminescent complex that emits light without batteries. It is expected to be applied in various fields, such as optical sensors, artificial skin, and d.....»»
Seeing the color of entangled photons in molecular systems
Spectroscopy is the study of how matter absorbs and emits light and other radiation. It allows scientists to study the structure of atoms and molecules, including the energy levels of their electrons. Classical optical spectroscopy relies on the way.....»»
Iso-propagation vortices: Optical multiplexing for unprecedented information capacity
The future of optical communications just got brighter. In a development reported in Advanced Photonics, researchers from Nanjing University have introduced iso-propagation vortices (IPVs), a novel concept that offers a solution to a long-standing ch.....»»
Rumors of a sleeker iPhone circulate. Does Apple want everything to be thin?
Apple is reportedly looking into a thinner iPhone model to replace its line of Pro offerings. Finally, an iPhone for the delicate, dainty-handed Apple user. Rumors from inside Apple's design brainstorming allege the company is looking into thin.....»»
iPad Pro hands on: Luxury technology in an impossibly-thin package
There is a lot that seems impossible about the new iPad Pro, but above all, it's the pinnacle of what Apple's vertical integration can achieve — with a high price to match.13-inch iPad ProThere was a point where "pro" on an Apple product meant "bes.....»»
Dear Apple, I don’t care how thin the iPad Pro is
The new iPad Pro is Apple's most impressive tablet to date. One of its biggest changes is an ultrathin design. And you know what? I just don't care about it......»»
New iPad Pro has larger magnets in different places and new speakers
The thin case of the new iPad Pro hides a redesign that sees brand new speakers alongside larger magnets for attaching to peripherals.Apple's new iPad ProApple's new iPad Pro is significantly thinner than its predecessor, and it now appears that in p.....»»
A thousand times smaller than a grain of sand—glass sensors 3D-printed on optical fiber
In a first for communications, researchers in Sweden 3D printed silica glass micro-optics on the tips of optic fibers—surfaces as small as the cross section of a human hair. The advance could enable faster internet and improved connectivity, as wel.....»»
Here’s our best look yet at the iPad Pro’s new nano-texture display [Video]
As we rounded up last night, the first M4 iPad Pro reviews are here, with most focusing on the new OLED screens, the M4 chip, and the ultra-thin design. If you’ve been on the hunt for an in-depth look at the new nano-texture glass option, a new vid.....»»
New optical tweezers can trap large and irregularly shaped particles
Researchers have developed new optical tweezers that can stably trap particles that are large—about 0.1 mm—and irregularly shaped. While conventional optical tweezers use highly focused laser beams to trap micro- or nano-scale rod shaped or spher.....»»
Beethoven likely didn’t die from lead poisoning, new hair analysis reveals
There was also mercury and arsenic but none of the toxins likely caused composer's death. Enlarge / Portrait of Beethoven by Joseph Karl Stieler, 1820. Toxocology analysis of the composer's locks of hair showed high levels of lea.....»»