An international team of scientists including those from the Australian National University (ANU) for the first time detected a pair of electrons inhabiting a higher-than-normal orbital. The phenomenon that has long been predicted by quantum physics which at the time many scientists thought was impossible to observe could finally be detected. this discovery could provide an understanding of superconductivity to be better for increasing the device of high-temperature superconductors.
Electrons associated with atoms have double energy levels, known as orbitals. The extra energy provided by a collision with a photon can hit an electron into a higher orbital, before falling back down, releasing energy in the process. One feature of quantum mechanics is that in multi-electron systems, electron pairs sometimes briefly jump to higher orbital than their energy should be classically possible.
This phenomenon is thought to be associated with superconductivity, in which two electron coherence makes them move incessantly through a very cold material. However, observing it will always be difficult, not only because of the size of the object in question but because it is rare. Professor Anatoli Kheifets of the Australian National University told IFLScience that in a hydrogen molecule, at any given time there is an approximately 1 percent chance that the electron pair will be in the first orbital, and the lower probability will be somewhere higher. "Scientists never thought they could observe such rare events," Kheifets said in a statement.
To capture the process in action, Kheifets and other scientists radiant X-Rays on two molecules of hydrogen atoms, dropping one of the electrons from the system. Because electrons help bind molecules together, removing electrons causes two separate hydrogen atoms, leaving one hydrogen atom, one proton, and crushed electrons. However, as the team at Nature Communications reports, the discarded and still part of the atom remains entangled, so whatever we learn about someone will tell us about other circumstances.
The authors then measured the energy of discarded electrons, and the orbital parameters of the surviving atoms, creating a clear picture (for quantum physicists) about the state of electrons when in a higher orbital.
In an effort to allow the whole world to understand this strange behavior, Kheifets drew an analogy with a pair of humans tied to each other but still needed some space. Go to a higher orbital like a vacation for electrons. It costs energy, equivalent to subatomic money. Two electrons simultaneously in higher orbitals are analogous to couples going on vacation at the same time, but in different places to give each other space. It costs more, but each room gives the other to help them stay together in the long run.
Best Regar @t4r1
Reference :
http://www.anu.edu.au/news/all-news/scientists-detect-electrons-outside-of-their-regular-orbits
http://thevoicehubs.com/physicists-observe-electrons-outside-normal-orbits-first-time/
Congratulations! This post has been upvoted from the communal account, @minnowsupport, by abumuhammad from the Minnow Support Project. It's a witness project run by aggroed, ausbitbank, teamsteem, theprophet0, someguy123, neoxian, followbtcnews, and netuoso. The goal is to help Steemit grow by supporting Minnows. Please find us at the Peace, Abundance, and Liberty Network (PALnet) Discord Channel. It's a completely public and open space to all members of the Steemit community who voluntarily choose to be there.
If you would like to delegate to the Minnow Support Project you can do so by clicking on the following links: 50SP, 100SP, 250SP, 500SP, 1000SP, 5000SP.
Be sure to leave at least 50SP undelegated on your account.