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Although the large CERN Hadron Collider had a long -term effect on particle physics, it has not yet opened completely new walls of particles, as some scientists expected.
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One scientist defends the theory that the new physics can hide what he calls the “Zeptouniver” – the realm of objects on the Zeptometer scale (which is 1 metro quintillion) – and that the best way to explore that universe is the death of Kaon and B meson.
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Future Colliders will probably be able to directly monitor Zeptounivers, but after researching these degrades, we will be able to find a new physics for a decade.
We people looked well well at the invisible. Hadron Collider, a our own prime minister’s instrument to explore the subatomic, can thoroughly explore the Attometer world, which (incredibly) is only one quarter of the subway. The sounds that the LHC confirmed the existence of Higgs Boson in 2012, and physicists were preparing to explain the remaining secrets of the universe, such as the existence of dark substances and matter-anti-concrete asymmetry.
But that discovery explosion did not actually realize. It really isn’t saying nothing It has since happened, but since then, no important revelations similar to hyggus have been discovered. And now a new article The new scientistWritten by particle physicist Harry Cliff, working in the LHCB experiment, describes in detail one theory of Why We did not find what we expected to find. In the simplest many of these revelations can be hidden in what is sometimes called “Zeptounivers”, which is a world that exists only 10-21-meter scale. LHC can only analyze particles directly to 50 zeptometers, but Cliff emphasizes the theory – many Munich technical university theoretical physicist Andrzejo Buroo – that these rude particles can be just outside the LHC detection capabilities.
Of course, a better detector could open this wall – Conern completed a feasibility study for a future ring collision (FCC) only this year. But Buras thinks we can explore this wall of new physics indirectly There is no need to wait for a few decades to finally examine this issue (FCC will not perform high energy physics by 2070). 2020 Buoras explored this question in an article Physics magazineWriting:
Can we reach Zeptounivers, ie even 10 resolution-21M or the energy that is 200 TEVs using quarrel -flavored physics and lepton taste, in violation of the processes in this decade significantly until it is possible to use any interest in the resulting interest in this age?
In an article uploaded to the Preprint server Arxiv Last year, Buras set seven possible objectives of this study, which he called “amazing seven,” says The new scientist; All seven are extremely rare particles that contain strange and lower quarries, which Cliff calls the “Zeptounivers” echoes. Fortunately, Bur, some experiments are already looking for these extremely rare decays.
One example of this breakdown begins with B meson – a kind of compositional particles made of different quarries, as Cliff explains. 2023, Belle II experiment in Japan captured this degradation of the action by making another particle called Kaon (or K Mezon) and two neutrins. Since the experiment has not been found directly detected by neutrins, the information about them is limited.
It is not the only recent detected ultravarted rare decomposition. 2024. September The CERN NA62 experiment captured the clearing of the positively charged Kaon into the pion and the matter pair. It is estimated that less than one in 10 billion Kaons should be broken this way. Because this interaction is sensitive to standard model deviations, it is determined as one of the main goals in finding new physics. Today in Japan, the Koto experiment is looking for the second confirmation of this Kaon breakdown.
“The search for new particles and forces exceeding the standard model is greatly motivated by the need to explain the dark material, a huge range of particles from a small neutrino to a massive top quarrel, and asymmetry between matter and antimonta, which is responsible for our existence,” CERN courier; “Because the LHC direct search has not yet provided any understanding of what these new particles and strength can be, indirect searches are growing.”
Scientists are just starting to become interested in the unknown Zeptouniver wall, and until the new generation of collisions are completed and running, these are rarely we are ours. only windows into that universe.
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