Subject and anti-matter are always thought of as opposite. If they interact, they become pure energy. There are, however, some cases, thanks to the strange laws of quantum mechanics, where particles and anti-particles coexist somewhat. Now, in this case a new particle can be added. Physicists report that the charm mason (subotomic particle that contains a quark and an anticoark containing an interesting kind) is found in a superposition state of particles of D0 – a charm made of quark and an antique old one – and its anti-particle, which is an interesting Made with antiquark and an up quark.
This is the fourth particle known to be able to do this after the strange-beauty mason oscillation discovered decades ago. Searches submitted for publication in the physical review letter and available as preprints on the RXV have not yet been peer-reviewed. Professor Tim Gershon at the University of Warwick, developer of the analytical technique used to make the measurement, said in a statement, “Mohan Mason particles are produced by the collision of protons and they travel an average of a few millimeters before being converted or corroded into another particle.”
“By comparing the decaying Mason Mason particles after traveling a short distance with farther travelers, we were able to measure the original amount that controls the speed of the charm Mason oscillation as an anti-Mason Mason – the difference in mass between the heavier and lighter versions of the Mason Mason. And this difference between the matter of the antimatter version of Mohan Mason and the masses in it is small. Putting it in a familiar unit of mass we have a difference of 0.00000000000000000000000000000000000001 grams – or in scientific notation 1×10-38 grams (3.5×10-40 ounces). That’s like spotting a difference of ten grams between two supermassive black holes, like Sagittarius A*.
This exact measurement can be achieved by looking at the huge amount of particle decay. A total of 30.6 million desks of poetic masons were studied in the LHCB test, part of the Large Hadron Collider. University professor Guy Wilkinson “The discovery of the fascinating mason particle oscillation makes it so fascinating that, unlike beauty masons, the oscillation is very slow and so it is extremely difficult to measure the time it takes for the mason to decay,” said Guy Wilkinson, a professor at the university.
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