I know that on Friday, you are about all metalins, metastorphosis, nanoschers, modifications and differences – so let’s see what Samsung has been doing recently. Galaxy phones of flattery camera: Well, it was unexpected!
Here is a recent study, titled “Compact iCamra with two -thirds of wavelength stage delay metals”, and it has introduced a new approach to making ultra compact metalins for eye cameras. The project was carried out through mutual cooperation between Samsung Electronics and Pohong University of Science and Technology (Postc.) and has been published in the Nature Communication Journal.
The Samsung team worked at every stage of this process, from the development of the concept to the implementation and testing, which aims to show the ability of modern photonic technologies while looking for new ways to highlight products in the competitive market.
One of the most notable results of this study is the ability to make the extension reality (XR) tools thin and light, as well as reducing the height of smartphone camera modules, to solve the problem of familiar “camera bump”.
This is great, but for the Galaxy phones there is no hurry to collide with the silicer camera. This technology may be better suitable for something like Vivo X200 Ultra, because it seems:
Photo by Fonina
Anyway, Mattelins has been getting a lot of attention recently. They are mainly ultra -thin lenses that bend and control the light using small structures on a flat surface, rather than you regularly look at the lenses. This makes it very small and light.
So far, they work well means that they have to delay the light through full wavelengths, which requires the construction of millions of long, thin structures. It was difficult to make, easy to break, and not ideal for mass production.
The new approach to this research delays only two -thirds of the wavelengths. This small change also focuses on the light, but lets the structure become smaller and hard. As a result, their production is easy, less likely to be defects, and cheaper.
To show this concept, the team created a thinly info -i -camera for XR devices. The thickness of the camera decreased by 20 % compared to the traditional version, from 2.0 mm to 1.6 mm, while still providing student tracking and identification of Iris in a wide 120 degree.
Inspired, but does the galaxy phones really need to hit the flatter camera right now? Tell me in the comments given below!
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