“A rendering of the metasurface chip in action. When hit with an infrared laser, the microscopic chip converts the incoming light to a higher frequency and sends it out as a narrow beam that can be precisely directed. Credit: T. Sun, edited.” (ScitechDaily, This Ultra-Thin Device Controls Light Like a Microscopic Spotlight) The entire car, ship, or aviation vehicle can be covered. By using this kind of chip. That chip can make it possible to create ultimate stealth solutions or conduct energy out. From layer very fast.
Nanotechnology and photonics are ultimate tools for making protective systems. The nanomaterials, which can be a graphene network. And fullerene nanotubes can be the tool. That can turn laser weapons ineffective. The system. It can shoot very low-energy photons or electrons against the laser beams. The idea is that. Those particles bind energy. From laser beams and other electromagnetic radiation. The low-energy electrons. That the system shoots through. The fullerene network can also bind those carbon atoms together. They can conduct thermal energy out of the layer.
This means that the system. It can make the cooling beam possible. The cooling- or freezing beam means. The low-energy particles. That binds energy into them. This kind of technology can revolutionize nuclear energy and aviation. The ability to control thermal energy. It makes it possible. To control temperature and kinetic energy in the system.
“Yellow waves show propagating atomic vibrations observed at ORNL’s Spallation Neutron Source. In a smart, switchable ceramic, an electric field aligns charges so vibrations along white field lines travel farther with fewer disruptions — boosting heat flow nearly threefold. Credit: Phoenix Pleasant/ORNL, U.S. Dept. of Energy” (ScitechDaily, Scientists Find a Way To Control Heat Flow With Electricity). In another way. The system shoots low-energy electrons or photons against the heat wave. The idea is that those low-energy particles bind energy into themselves.
The new material can conduct light. Wth new precision . The microscopic device controls light like a microscopic spotlight. And that can make it possible to create new photonic devices. The ability to conduct and control light. Into a wanted direction makes it possible to create new types of systems that could make it possible to wash the quantum noise out of the quantum systems. This kind of ability also makes it possible to create ultimate quantum stealth systems, which aim light and other types of EM radiation into the desired direction.
These types of devices and materials can be used to spread laser beams. All around the surface. And that can make it possible. To create a layer that protects layers against lasers and high-energy infrared radiation. This kind of thing can offer a possibility to conduct things like infrared lasers and other thermal radiation out of the layer.
Another thing that we must realize is that. First time in history. Reseachers controlled heat waves by using. electricity. Basically. It is very easy to control heat by using electron beams. When the cathode system sends electron beams against heat waves, those electrons act. Like water molecules. They bind thermal energy into them. And that thing makes it possible to decrease the incoming thermal energy level. That kind of system. It can conduct energy away from the infrared radiation. And it can make laser systems ineffective.
There is also a possibility that the low-energy particles can protect structures against even a thermonuclear explosion. If the cloud of low-energy particles is between the target and the nuclear explosion. Theoretically, they can bind so much energy that the nuclear explosion turns ineffective. The idea is that those low-energy particles are shot against the energy impulse that comes from the nuclear explosion. Could this thing really be possible? It depends on how fast those particles can bind energy to themselves.
https://scitechdaily.com/scientists-find-a-way-to-control-heat-flow-with-electricity/
https://scitechdaily.com/this-ultra-thin-device-controls-light-like-a-microscopic-spotlight/
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