Theoretical physicists discovered the reason why light affects chemical reactions. The reason for that is light can affect the energy level of atoms. When light impacts atoms it rises their energy level. The energy level in atoms rises until it turns higher than its environment. Then that energy starts to flow out from atoms. That energy flow pushes other atoms away.
We can think that energy is like the wind. And when energy travels out from an atom it moves to other atoms. When the energy flow ends that atom or its electron sends a photon. And that photon acts like a rocket engine.
When light impacts an atom it increases its quantum field energy level. The energy that travels out from an atom is pushing other atoms away. And that is the thing that breaks structure.
When energy travels out from atoms, that thing is called quantum annealing. In that process is forming an impact wave that travels out from the atom. That energy pushes other atoms away from the annealing atom. When all atoms in the quantum system anneal.
They are increasing free energy in the system. Free energy is pushing atoms away from each other. The thing is that adjusting the symmetry of energy in atoms is possible to push them like billiard balls. Free energy is standing waves that cause reflection between atoms.
"Resonant vibrational strong-coupling can inhibit chemical reactions. Strong resonant coupling between cavity and vibrational modes can selectively inhibit a chemical reaction, i.e., preventing the appearance of products, that is present outside the cavity environment. Credit: © E. Ronca / C. Schäfer" (ScitechDaily.com/Theoretical Physicists Discover Why Optical Cavities Slow Down Chemical Reactions)
There is no meaningless force in the universe.
When chemical (or electrochemical) bonds between atoms formin. The main interaction that affects the process is electromagnetism. But also things like quantum gravitation and other forces are participating in forming of molecules. The force that affects to reaction can be dominating or recessive.
When dominating or stronger force is in balance. And it's effect is symmetrical recessive force determines the direction where a particle, like an atom is traveling. Even if the effect of quantum or microgravitation is minimal it still exists.
If we could make the microlens. Where the atom is turning the trajectory of photons that makes it is possible to create the new type of tools. That allows single atom-scale manipulation. And that is the new road for nanotechnology.
Term microlensing is normally used in astronomy. That term means gravitation is turning the light waves. But could we call the situation where atoms are turning the trajectory of light at a certain point microlensing? The electron shells of the atom can turn the direction of the photons. If some system can control this effect. That allows the focusing of the light waves precisely at the right point. And that thing allows us to control the positions of the atoms with very high accuracy.
https://scitechdaily.com/theoretical-physicists-discover-why-optical-cavities-slow-down-chemical-reactions/
https://en.wikipedia.org/wiki/Gravitational_microlensing
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