The new material will revolutionize night vision and energy production.

We can imagine how sharp the night vision system could be if every LCD cell is connected to an individual photovoltaic cell. In that model, every photovoltaic cell gives electric impulses to its LCD cell. That thing makes it possible to create a lightweight system where miniaturized photovoltaic cells act like mesh eyes. This technology allows the controlling of small-size submarines even in human blood veins.

That kind of system can make it possible to create night-vision glasses that cannot be blinded by flashing lights. And those glasses can be installed in the kevlar- or titanium-carbon-fiber mask that protects the user from small stones and slow bullets. The user can use this kind of intelligent glasses in the daytime. Engineers can install this type of small camera that acts as a sight to guns.

Developers can install this kind of wireless action camera in the place of the laser point, or it can be integrated into the laser point. The laser point can act as a laser microphone and target marker. And it can also see what kinds of chemicals are in the air. And that system allows shooters to shoot around the corners. With very high accuracy. Also, things like pocket-size drones can send their data to augmented reality glasses.

Those systems can also follow spoken words and use voice commands. Or maybe someday the BCI makes it possible to control drones and other devices and exchange information between humans and implanted animals. The things like "Neuralink" microchips are making it possible to control animals like dogs by using regular GSM telephones.

The same hybrid material that can make this thing possible can also make it possible to create wearable computer vests. There could be a special pocket in the bulletproof vests for those computers. Those wearable computers could be very lightweight and powerful 2D computer technology. That kind of system is making a revolution in the military and civil world.

Engineers can transform every single mobile telephone into a HUD screen for larger computers. The mobile telephone requires only the application that allows it to connect to the computer by using the BlueTooth. In that case, the mobile telephone acts like a virtual screen. And the system can benefit the positioning system and tilt sensors. So when the user turns their head the VR system can make the illusion that the person is in a virtual space like a virtual room. That system can also be connected to robots. And when the user turns their head, that thing makes the robot's head turns. The user can see and hear things that the robot sees and hears.

Even if we don't use augmented reality while we are jogging that kind of technology is safer than regular screens. If the users of the computers are using HUD glasses nobody can see what they are writing or making with their computers. Augmented reality makes it possible to create safe computers. The user might use the virtual keyboard that is seen in the HUD glasses.

When the users of those systems are using virtual keyboards they must simply put their index finger at a certain point, and then tell the system that the finger is on the letter "A". Then the AI creates a virtual keyboard in front of the user's eyes. Then the AI simply follows the points where the fingers are. And if there is some kind of problem to see touches, the user can use voice commands for positioning letters.

Those HUD glasses with the action camera can be connected to the computer wirelessly by using BlueTooth. The user of that kind of system can carry the computer that is like a box in the bag, or there could be a special pocket for that system in the jacket.

And if the user waits for the flight or trains the system can connect itself with the station's timetable. When the train is coming the system tells that the vehicle is leaving. And in that case, the system user can simply stand up and walk to the right door. Of course, the system can know how fast the person walks, and that tells the incoming train or another vehicle early enough.

https://scitechdaily.com/new-hybrid-material-transforms-light-revolutionizing-solar-energy-medical-imaging-and-night-vision-technologies/

Image: https://7wdata.be/internet-of-things/new-augmented-reality-technology-announced/

MIT's tractor beam can make the new types of SASER systems possible

"This chip-based "tractor-beam," which uses an intensely focused beam of light to capture and manipulate biological particles without damaging the cells, could help biologists study the mechanisms of diseases."(Interesting Engineering, MIT’s Star Wars-inspired ‘tractor beam’ uses light to capture, manipulate cells) MIT's tractor beam can make the new types of SASER systems possible. The tractor beam just hovers the nanoparticle in air or medium, and then the laser or some other electromagnetic system transports oscillation into those particles. The ability to make cells and other particles hover in the system makes it possible to create particles whose energy level or resonance frequencies are accurately calculated things. That thing makes it possible to create things that transmit wave movement accurately and cleanly. This is one version of the use of a tractor beam. Modern tractor beams are like acoustic tweezers where sound waves lock the object in its cr

The new observations tell that the thunderstorms form gamma-rays. That could make gamma-ray lasers possible.

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Chinese innovations and space lasers are interesting combinations.

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Interesting and futuristic innovations

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