Molecular quantum tunneling is a breakthrough in quantum chemistry.

"Quantum mechanics allows particles due to their quantum mechanical wave properties to break through the energetic barrier (wall) and a reaction occurs. Credit: Universität Innsbruck/Harald Ritsch" (Quantum Chemistry Breakthrough: Molecules Caught Tunneling for the First Time)

Quantum tunneling is one of the most interesting phenomena in the world. The idea is that particles can travel through the wall without harming it. In atomic and elementary particles quantum tunneling mean that those particles push the particles of the wall away from them. In that process, ions can travel through the wall without affecting it.

The ion just pushes atoms away from its route. An ion can travel through a thick wall. And when wave movement hits the wall, it transfers its energy to the power fields of atoms. And then that wave movement travels to the next atoms. Until they travel outside the wall from the other side.

But quantum tunneling in molecular structures is a new thing. When we look at molecules. Their atom's quantum tunnels connect those atoms in a structure called a molecule. The problem with those quantum tunnels is how to restore those structures. While the molecule travels through the wall. The problem is that those quantum tunnels will be broken when a molecule travels through the wall.

"An electron wave packet directed at a potential barrier. The dim patch on the right is the part of the wave function that has tunneled through the barrier". (Wikipedia/Qauntum tunneling)

"A simulation of a wave packet incident on a potential barrier. In relative units, the barrier energy is 20, greater than the mean wave packet energy of 14. A portion of the wave packet passes through the barrier". (Wikipedia/Qauntum tunneling).

The problem with quantum tunneling is reflection. Lots of information or particles are jumping out from the potential wall. And that is one thing that denies complicated structures tunneling.

Quantum tunneling oscillations of probability in an integrable double well of potential, seen in phase space. (Wikipedia/Quantum tunnelling)

Chaos-assisted tunneling oscillations between two regular tori embedded in a chaotic sea, seen in phase space. (Wikipedia/Quantum tunnelling)

The last two images are the model. That the system can use to transport complicated structures through the potential wall. In that model, the system creates an energy model that just sucks particles through the potential wall. The system creates a vacuum on another side of the potential wall. And then that thing will transport information through the wall.

The idea of this system is that some of the atoms of the active molecule are in different energy levels. If the electrons can anchor into a certain position. That thing allows the electrons are forming the quantum antenna. If those molecules' energy bridges that are keeping atoms in certain positions can overlap that they can travel over the energy bridges of atoms of the wall. That allows them to restore those channels.

One answer could be a simple-looking thing. The molecule's atoms must turn to different energy levels. In that model, the structure has an energy pothole that allows energy to travel to those potholes. If the energy level of the atoms is the same impact energy would destroy those energy bridges. The idea is that those energy bridges are traveling overlapping between atoms. If the system can aim the energy bridge over the energy bridges of the passive or receiving system.

In this text, the structure that travels through the wall is the active structure. And the wall is a passive structure. If the energy bridges of the active molecule can overlap with the energy or molecular bridges of a passive system that could allow the system can restore the structure of the molecule. If that kind of thing is possible maybe in the future. That allows to transport of robots and even humans through the walls.

https://scitechdaily.com/quantum-chemistry-breakthrough-molecules-caught-tunneling-for-the-first-time/

https://en.wikipedia.org/wiki/Quantum_tunnelling

https://shorttextsofoldscholars.blogspot.com/

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