Nistery person antimatter physics discovered by large hadron
LHCB experiment noticed a new difference between an object and antimatter of particles called baryon
Description of the baromon particles.
Thomas Parsons / Science Source
Item and antimatter is like a mirror to contradict: They are the same as each part other than their electricity fees. Well, almost the same, sometimes, Item and antimatter behaved differently From each other, and when they are, the physicists are very excited. Today scientists of the world’s largest particles observe a new type of antimatter particles that break a different rate than their counterparts. Discovering is an important step in the pursuit of physicists to be solved one of the greatest mysteries in the universe: Why is there something than nothing.
The world around us is made of things – the stars, planets, people and things that lead our cosmos consisting of atoms with something, and no antimatter. But this is not necessary. Our best theories suggest that if the universe is born there is the same value of the item and antimatterAnd when the two were contacted, they destroyed each other. For some reason, a little more than something saved and continues to make the physical world. Why? No one knows.
So physicists hunting for any sign of the difference between an object and antimatter, known in the field as a violation of “Charge Conjugation-Parity Symmetry,” or Breach of CPthat can mean why some things escape the destruction of the early universe.
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Now physics in big Hadron Collider (LHC) ‘s Experiment with LHCB Published a Journal paper NATURE informed that they CP violation measured for the first time in villages-The class of particles that include protons and neutrons inside atom. Cheaps are all built from triplets even with small particles called quarks. Previously experiments started in 1964 saw the CP breach of messages in Mess, not like the villages made in a pair of quark-antquark. In the new experiment, scientists see that the people who have been made in a fight, a greater cousin made of antimatter antimatter versions of the antimatter versions of the same three quarks.
Magnet for LHCB (many Hadron Collider Beauty) Particle Detector in CERN (European Particle Physics Laborsory Labors Laboratory Laboratory Laboratory Labors Laboct) near Geneva, Switzerland.
“This is an important search for violation of CP,” Xueting Yang said in Peking University, a member of the LHCB team analyzing the data behind the measurement. “Since cheaps are blocks to build everyday things around us, the first observation of CP violating the bars opening a new window for us to seek for new physics.”
LHCB experiment is the only engine in the world that can summon enough energy to make cheap with quarks of beauty. It is made by facilitating protons until the speed of light, then waste about 200 million collisions per second. While the protons melts, the energy of crashing new particles has been made.
“This is an odd measurement,” says the theoretical physicite awaits the Institute for advanced study, which is not included in the experiment. “Cheap contains chamanyhi (The charms) quarks are somewhat hard to produce, and the violation of the CP is more gentle and hard to study. “
The 69-foot-long length, 6,000-ton experiments in the LHCB can track all particles made by collisions and in many different ways they can break into small particles. “The detector is like a giant four-dimensional camera that can record the passing of all particles through it,” says the author of LHCB Vincenzo Vagnoni in the nuclear physics in Italy. “With all this information, we can build the properly occurring in the first collision and everything went out and then decayed.”
The difference between scientists who have been antimatter in this case is relatively small, and it is suitable within the predictions of partiction partiction – the reigning theory of subatomic realm. This Fill violation of CP, however, does not account for deep asymmetry between something and antimatter we can see throughout space.
“Measuring himself is a great success, but the consequence, me, is not surprising,” said Jessica Turnic at Durham University in Durham University in England, which was not involved in research. “The observed violation of CP seems to be in line with the proposed in the quark sector, and we know that observing the Baryon Asymmetry.”
To know how to claim the upper hand in the early universe, physics should find new ways that matter and antimatter will change, which are likely by particles not yet seen. “There must be a new class of particles in the early universe, showing the greater of this behavior,” Vagnoni said. “We try to find small differences between what we saw and what the standard model was predicted. If we could find a difference, then we could focus on what’s wrong.”
Researchers hope to see many cracks in standard model while the experiment continues to run. Finally the LHCB should collect about 30 times more data than used for this analysis, allowing physicists to seek for CP to decay the fraction more than just observed here. So stay fastened for an answer as to why there is anything.
