The complicated quantum systems are like fractals. There are an unlimited number of subsystems in every quantum system.

When we are thinking about things like quantum systems and especially complicated quantum systems. We are facing one thing. The quantum systems are entireties that are formed of multiple subsystems. So we can think that quantum systems are like fractals. When we are seeing them from a long distance they look like one large-size entirety. 

But when we are zooming the point, we can see that there are many details in those systems. And in the interactions of the smallest parts of the universe, there are many things possible that are impossible to our-size objects. Many things that happen in the quantum world are possible only for elementary particles. 

Things like nanocrystals can make new and powerful power sources possible. There is theoretically possible to make the crystal, with a vacuum channel in the middle of it. If the reflection of both sides of the crystal is 100%. The power of the radiation that jumps between those mirrors will increase until the crystal will erupt that power. The thing is that the reflection must not be 100%. 

There is enough that the outcoming radiation is stronger than absorption. When the outcoming radiation ends the absorption removes the radiation. But if the reflection is 100%. The only way to remove the radiation is to let the radiation go somewhere.

The fullerene can use to simulate soundwaves in a low-pressure atmosphere. 

There is nothing so sure than change and unexpected. If we think that the speed of sound is stable, we are wrong. The speed of sound depends on the gas pressure. The distance between gas molecules determines the speed of sound. In low pressure, the movement of the gas molecules must be bigger than in high gas pressure. 

But the remarkable thing is that if we would deliver things like fullerene to air. And then make just those fullerene molecules oscillate we can make a similar effect that is in the extremely low atmosphere. That effect can make by stressing the fullerene molecule. And make it oscillate by using a laser ray that is causing oscillation in fullerene molecules. That oscillation resonates with other fullerene molecules. 

There are variable speeds of sound on Mars. 

The low-frequency sound has different speeds of sound on Mars than the high-frequency sound. The reason for that. Is that the gas pressure on that planet is low. The low-frequent sound affects the gas molecules differently than the high-frequent sound. 

The variable sound speed could make in Earth's atmosphere by creating the soundwave. That resonates with every single atom group separately. If the soundwave resonates only with nitrogen or only oxygen atoms. That thing would create a similar sound effect with Planet Mars. 

So there is the possibility to make this kind of phenomenon in the laboratory. The thing that this kind of test requires. Is that the larger molecules than oxygen and nitrogen molecules are delivered to air. Those molecules can be fullerene. Then there would form the sound wave that affects mostly those larger molecules. 

The idea is that the normal loudspeaker system will deliver sound to air molecules. But the special acoustic system is creating a sound that resonates only with those fullerene molecules. 

That thing can make by using a laser ray. That hits the fullerene molecule. And then that fullerene forms a sound that resonates with the carbon atoms. The idea is that the few atoms or molecules in the air are stimulating the conditions of the low-pressure atmosphere. 

If there is the possibility to make the soundwave that resonates only those few atoms. There is the possibility to make the sound that moves in the air almost like on Mars. And if that thing is possible to make in the normal air pressure by using a soundwave that jumps over regular air molecules that thing could open new visions for loudspeaker systems. 

https://scitechdaily.com/shaving-hairs-off-nanocrystals-to-improve-next-gen-displays-and-solar-cells/

https://scitechdaily.com/variable-speed-of-sound-on-mars-what-sounds-captured-by-nasa-perseverance-rover-reveal-about-the-red-planet/

https://miraclesofthequantumworld.blogspot.com/