The new material absorbs all electromagnetic waves.

"Researchers have created an ultra-thin film that can absorb almost all electromagnetic waves across several frequency bands, significantly boosting the performance of wireless communication devices. (Artist’s concept.) Credit: SciTechDaily.com" (ScitechDaily, Breakthrough Material Perfectly Absorbs All Electromagnetic Waves)

"The team, led by Dr. Byeongjin Park and Dr. Sang Bok Lee from the Composites & Convergence Materials Research Division at  Korea Institute of Materials Science, KIMS, synthesized a magnetic material by altering the crystal structure of ferrite, enabling it to selectively absorb desired frequencies. They produced an ultra-thin polymer composite film and incorporated conductive patterns on the film’s back side to control the propagation of electromagnetic waves. (ScitechDaily, Breakthrough Material Perfectly Absorbs All Electromagnetic Waves)

By adjusting the shape of the conductive pattern, electromagnetic wave reflection at specific frequencies can be dramatically reduced. A carbon nanotube thin film with high shielding properties was also applied to the back to further enhance the material’s electromagnetic wave shielding capabilities." (ScitechDaily, Breakthrough Material Perfectly Absorbs All Electromagnetic Waves)

"A conceptual diagram of the electromagnetic wave absorption and shielding material developed by the research team, along with the designed conductive pattern. Credit: Korea Institute of Materials Science (KIMS)" (ScitechDaily, Breakthrough Material Perfectly Absorbs All Electromagnetic Waves)

The new material absorbs all electromagnetic waves. That makes this material a new and powerful tool. To protect quantum computers and stealth aircraft. The material that absorbs all electromagnetic waves can protect things like quantum entanglements and nanotechnical processors against outcoming energy. And that can eliminate outcoming energy and interference. 

That ability can make this new material more ultimate than we even imagine. If the material absorbs things like X- and gamma rays it can make breakthroughs in nuclear technology. The material can protect people against nuclear radiation and thermal effects. It can make it possible to create new, lightweight space suits and protect people against the heat of the sun. That material can act as an insulator between engines and workers. 

If we have material that absorbs all electromagnetic radiation that means we have material that turns people and systems like vehicles and aircraft into the shadows. The idea in absorption is that the material will not reflect any radiation back from it. That means material stores electromagnetic energy into it. And then. The next step is to conduct energy out of that material. 

"Above: B-21 "Raider" is the planned successor to B-2 "Spirit" famous stealth bomber. The stealth technology base is in minimized reflection. That denies radars getting radar echo. If there is no reflection. The aircraft turns into a shadow. 

The problem with materials that absorb electromagnetic radiation is this: where can it put that energy? 

If the material can collect all electromagnetic radiation into one reflecting wavelength and turn the reflection into, for example, gamma rays. The other version is to store that energy in a material. Then the system conducts energy out from the material. 

The main problem with radiation-absorbing materials is where they can put the energy. That they store. There are a couple of things that can answer the problem. The requirement is that the material turns electromagnetic waves into heat or IR radiation. That thing is easy to transport out from the material. 

"The electromagnetic wave absorption and shielding material developed by the research team, showing its thin and flexible form & its shape remaining intact even after 5,000 bending tests. Credit: Korea Institute of Materials Science (KIMS)" (ScitechDaily, Breakthrough Material Perfectly Absorbs All Electromagnetic Waves)

The system that turns the energy into kinetic energy can pull energy into spinning nano-or quantum structures. The other versions are systems that turn heat energy into electricity. Those systems can also transport energy out from the hypersonic aircraft structures. And those systems can also transport thermal energy out from the shells of fusion reactors and new nuclear fission reactors. 

If material turns electromagnetic radiation into thermal energy it's quite easy to make the system there is a colder place in the middle of the airplane. Then. That thing conducts thermal energy in the desired direction. And if all energy can be conducted that way. The system makes the material visible. Or makes it look like a shadow. 

In some versions of the non-linear graphene structure with the small-size nanoturbines. The idea is that the material takes energy and stores it in its structure. Those nano turbines transform that energy into kinetic energy that can conduct electromagnetic energy out from the material. The spinning nanostructures are one way to conduct energy. Out from the layer. 

The other version is to use systems that turn thermal energy into electricity. That system makes it possible to conduct heat away from the surfaces of the hypersonic aircraft. And. It can also be used to conduct thermal energy out from other extremely hot places like the shells of fusion reactors. 

https://militaeraktuell.at/abschreckung-2-0-der-neue-b-21-raider/

https://scitechdaily.com/breakthrough-material-perfectly-absorbs-all-electromagnetic-waves/

https://scitechdaily.com/revamping-energy-recovery-new-way-to-efficiently-convert-waste-heat-into-electricity/