The new room-temperature quantum effect can be the next-generation acousto-optical system.

  The new room-temperature quantum effect can be the next-generation acousto-optical system. 

"Laser hits glass particles. Credit: Lorenzo Dania (ETHZ)" (ScitechDaily)

The new quantum breakthrough in the hovering nanoparticles is something incredible. The experiment, in which a laser hits nanoparticles that hover between two layers, offers incredible new ways to create optical and acousto-optical systems. In the last case, the laser beam, or some other electromagnetic stress, causes particles to oscillate. And that turns electromagnetic radiation into acoustic waves. The acoustic wave causes other molecules or atoms to oscillate around them. 

An acoustic wave means molecular-sized wave movement. In those systems, the laser pumps energy into those nanoparticles. And puts them oscillate. And they send a wave movement. The wave movement’s wavelength depends on the size of the oscillating particle. That  makes it possible for researchers to create new types of lasers where other lasers inject energy into the medium. That medium can be gas atoms that hover in the laser element. Then those gas atoms send their extra energy as a photon pack. 

Same way. Other particles. Like hydrogen ions (protons) or standing electron clouds, they send their extra energy in the form of photons. If the laser beams are injected into the particles like fullerene balls, they cause them to send a wave movement whose wavelength is similar to the fullerene ball’s size. That allows for creation. Of new types of highly accurate acoustic systems. Nanoparticle oscillation is one of the things. That can be used in the new types of cleaning systems. If the oscillation can destroy things like hydrocarbon molecules and ionize the carbon atom. That removes carbon from the compound. That can be used in the new types of medicine. 

The idea is that the nanoparticle. Like fullerene, it takes a bubble in the targeted cells. Then the acoustic oscillation resonates in that bubble. Putting it to oscillate. And that makes those bubbles create new bubbles. That thing makes especially fullerene-based nanoparticles dangerous. The fullerene always creates a bubble around it. And that bubble will multiply itself. The thing is that the slime in the human body and cells has higher viscosity than water. The surface tension denies liquids to fill those ball-shaped molecules. 

That means they are in the bubble. And when some acoustic waves, or otherwise, are said. Pressure waves hit that bubble or its outer membrane and cause it to oscillate like a drum. That forms the lower pressure point in that point. They can actually form a microvacuum that creates another bubble at that point. That thing pulls dirt out from surfaces. But the oscillation sends pressure, or sound waves, into the cell. Those pressure waves cause oscillation in the cell organelles and the DNA molecule. It can also damage the cell’s internal structures. 

https://scitechdaily.com/room-temperature-quantum-breakthrough-stuns-physicists/