Murdering multilens wasn't a cool move.

Floral

Olympus 35 SP on Kodak film.

Translucida

Night blooms by stonelantern

Trilux Light Column Concept Completes An Urban Jewel – Kö-Bogen, Düsseldorf #LED, #illuminated, #lightcolumn, #luminaire, #multilens #technology, #OutdoorLighting, #Trilux #light https://tinyurl.com/tzcl4ag https://www.instagram.com/p/B7JIY_NB8ZM/?igshid=b4jrntclxd5l

© Kaeli Holmes

Traffic. Jam.

Create Differentiation which gives a distinct appeal to the Brick Packs drawing the attention of customers at "POINT OF SALE". Make the most with the unique and spectacular #Holographic , #FoilStamping , #MultiLens and #Embossing Effects on the Aseptic Brick #Packs . Know More - https://goo.gl/jysj8w #Asepto #Packaging #AsepticPackaging #LiquidPackaging #Design #PackagingDesign #Creative #Patterns

Ok so we have this item called multilens, it's a reused zoom lens. Back in the day you could have 3 of them, each allowing an extra activation of attacking moves, and since population bomb procs based on accuracy, if you had 2 wide lens on that pokemon you could have upto 40 hits, it did diminish the power though, but that didn't matter as you could have 3 king's rocks and 5 grip claws(which work like covet now instead of boosting binding moves duration) and flinch and steal items s much as you wanted. it was broken, now you can have 2 multilens only and they don't work with multi-hitting moves anymore.

Just finished the inverse flip stat challenge, that was easier than mono rock which is still in the back.

A Gothic Daydreaming

iPhone SE vs. Galaxy A53 5G: Plenty of Value, Different Approaches

iPhone SE vs. Galaxy A53 5G: Plenty of Value, Different Approaches

Apple’s $429 iPhone SE and Samsung’s $450 Galaxy A53 5G both launched last month as more affordable alternatives to the Galaxy S22 and iPhone 13. Although both feature 5G connectivity and a similar price, they have little else in common, as the companies take opposite paths to cheaper phones. Samsung’s A53 brings higher-end features like a multilens camera and a display with a high refresh rate…

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Chemical Splash Goggles

Chemical Splash Goggles - Multilens chemical splash goggles are impact-resistant, making them versatile. Polycarbonate frame makes it suitable to manufacturing, chemical & iron industry.

My foldable phone expectations were way too high

My foldable phone expectations were way too high

Andrew Hoyle/CNET Let’s face it, mobile phones, even the best ones, just aren’t that exciting anymore. They’re all way more powerful than we really need, they all have nifty multilens cameras and they all look essentially the same. I really hoped that folding phones would give a much needed shot of adrenaline to the industry. But well over a year after their arrival, they’ve fizzled out like a…

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A New Lens Technology Is Primed To Jump-Start Phone Cameras

An anonymous reader quotes a report from Wired: A new company called Metalenz, which emerges from stealth mode today, is looking to disrupt smartphone cameras with a single, flat lens system that utilizes a technology called optical metasurfaces. A camera built around this new lens tech can produce an image of the same if not better quality as traditional lenses, collect more light for brighter photos, and can even enable new forms of sensing in phones, all while taking up less space. Instead of using plastic and glass lens elements stacked over an image sensor, Metalenz's design uses a single lens built on a glass wafer that is between 1x1 to 3x3 millimeter in size. Look very closely under a microscope and you'll see nanostructures measuring one-thousandth the width of a human hair. Those nanostructures bend light rays in a way that corrects for many of the shortcomings of single-lens camera systems. The core technology was formed through a decade of research when cofounder and CEO Robert Devlin was working on his PhD at Harvard University with acclaimed physicist and Metalenz cofounder Federico Capasso. The company was spun out of the research group in 2017. Light passes through these patterned nanostructures, which look like millions of circles with differing diameters at the microscopic level. The resulting image quality is just as sharp as what you'd get from a multilens system, and the nanostructures do the job of reducing or eliminating many of the image-degrading aberrations common to traditional cameras. And the design doesn't just conserve space. Devlin says a Metalenz camera can deliver more light back to the image sensor, allowing for brighter and sharper images than what you'd get with traditional lens elements. Another benefit? The company has formed partnerships with two semiconductor leaders (that can currently produce a million Metalenz "chips" a day), meaning the optics are made in the same foundries that manufacture consumer and industrial devices -- an important step in simplifying the supply chain. Metalenz will go into mass production toward the end of the year. Its first application will be to serve as the lens system of a 3D sensor in a smartphone. (The company did not give the name of the phone maker.)

Read more of this story at Slashdot.

from Slashdot https://ift.tt/2Mr5SEX

A New Lens Technology Is Primed to Jump-Start Phone Cameras

Phone makers like Apple have increased the number of lens elements over time, and while some, like Samsung, are now folding optics to create “periscope” lenses for greater zoom capabilities, companies have generally stuck with the tried-and-true stacked lens element system. 

“The optics became more sophisticated, you added more lens elements, you created strong aspheric elements to achieve the necessary reduction in space, but there was no revolution in the past 10 years in this field,” Schindelbeck says.

This is where Metalenz comes in. Instead of using plastic and glass lens elements stacked over an image sensor, Metalenz's design uses a single lens built on a glass wafer that is between 1x1 to 3x3 millimeter in size. Look very closely under a microscope and you'll see nanostructures measuring one-thousandth the width of a human hair. Those nanostructures bend light rays in a way that corrects for many of the shortcomings of single-lens camera systems.

The core technology was formed through a decade of research when cofounder and CEO Robert Devlin was working on his PhD at Harvard University with acclaimed physicist and Metalenz cofounder Federico Capasso. The company was spun out of the research group in 2017.

Light passes through these patterned nanostructures, which look like millions of circles with differing diameters at the microscopic level. “Much in the way that a curved lens speeds up and slows down light to bend it, each one of these allows us to do the same thing, so we can bend and shape light just by changing the diameters of these circles,” Devlin says. 

Photograph: Justin Knight

The resulting image quality is just as sharp as what you'd get from a multilens system, and the nanostructures do the job of reducing or eliminating many of the image-degrading aberrations common to traditional cameras. And the design doesn't just conserve space. Devlin says a Metalenz camera can deliver more light back to the image sensor, allowing for brighter and sharper images than what you'd get with traditional lens elements. 

Another benefit? The company has formed partnerships with two semiconductor leaders (that can currently produce a million Metalenz "chips" a day), meaning the optics are made in the same foundries that manufacture consumer and industrial devices—an important step in simplifying the supply chain. 

New Forms of Sensing

Metalenz will go into mass production toward the end of the year. Its first application will be to serve as the lens system of a 3D sensor in a smartphone. (The company did not give the name of the phone maker.)