a gluon can "glu" on my face anyday while we're having a strong interaction if you know what i mean🤤

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a gluon can "glu" on my face anyday while we're having a strong interaction if you know what i mean🤤

Anya is live and ready to show you everything. Watch her strip, dance, and perform exclusive shows just for you. Interact in real-time and make your fantasies come true.
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Hideki Yukawa – Scientist of the Day
Hideki Yukawa, a Japanese physicist, was born Jan. 23, 1907.
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Nuclear Physics Might Hold The Key To Cracking Open The Standard Model
“Interestingly, this could also lead to a renewed interest in the search for glueballs, which would be the first ever direct evidence of a bound state of gluons in nature! If the exotic QCD predictions of tetraquarks and pentaquarks are borne out in our Universe, it stands to reason that glueballs should be there as well. Perhaps the existence of these composite particles will be verified at the LHC as well, with incredible implications for how our Universe works either way.”
Nuclear physics has, for decades now, been regarded less as a window into fundamental physics and more of a derived science. As we’ve discovered that nuclei, baryons, and mesons are all composite particles made out of quarks, antiquarks, and gluons, though, we’ve realized that there are other possible combinations that nature allows, that should exist. In recent years, we’ve discovered tetraquark and pentaquark states of quarks and antiquarks, and yet there should be even more. QCD, our theory of the strong interactions, predicts that a set of exotic states of bound gluons -- known as a glueball -- should exist. Finding them, or proving that they don’t exist, might be a way to crack open the Standard Model in an entirely new way.
Nuclear physics might, after all these years, hold the key to going beyond the current limitations of physics.
Wishing y’all and your partners a strong force interaction to keep your nucleic relationship together for hundreds of thousands of years.
Fanon Flowers - Heat Barrier

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New Exotic Particle Could Help Explain What Holds Matter Together
A new exotic particle has been hiding out amidst the gobs of data collected by the world's largest atom smasher, physicists have discovered. The new particle, called Ds3*, is a meson — a type of unstable particle made of one quark and one antiquark. They're held together by the strong interaction, or strong force, that is one of the four fundamental forces in nature. To find the new particle, Tim Gershon, a professor of physics at the University of Warwick in the United Kingdom, and his team used the Dalitz plot analysis. http://dlvr.it/7PHMS0