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Newest seek for new unique debris at CERN

Newest seek for new unique debris at CERN
December 28, 2023


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Representation of 2 varieties of long-lived debris decaying into a couple of muons, appearing how the indicators of the muons will also be traced again to the long-lived particle decay level the usage of information from the tracker and muon detectors. Credit score: CMS/CERN

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Representation of 2 varieties of long-lived debris decaying into a couple of muons, appearing how the indicators of the muons will also be traced again to the long-lived particle decay level the usage of information from the tracker and muon detectors. Credit score: CMS/CERN

The CMS experiment has introduced its first seek for new physics the usage of information from Run 3 of the Huge Hadron Collider. The brand new learn about appears at the potential of “darkish photon” manufacturing within the decay of Higgs bosons within the detector.

Darkish photons are unique long-lived debris: “Lengthy-lived” as a result of they have got a mean life of greater than a 10th of a billionth of a 2nd—an excessively lengthy lifetime on the subject of debris produced within the LHC—and “unique” as a result of they aren’t a part of the usual fashion of particle physics.
The usual fashion is the main principle of the elemental construction blocks of the universe, however many physics questions stay unanswered, and so searches for phenomena past the usual fashion proceed. CMS’s new outcome defines extra constrained limits at the parameters of the decay of Higgs bosons to darkish photons, additional narrowing down the realm through which physicists can seek for them.
In principle, darkish photons would shuttle a measurable distance within the CMS detector sooner than they decay into “displaced muons.” If scientists had been to retrace the tracks of those muons, they might to find that they do not succeed in the entire approach to the collision level, since the tracks come from a particle that has already moved far away, with none hint.
Run 3 of the LHC started in July 2022 and has the next prompt luminosity than earlier LHC runs, which means there are extra collisions going down at anyone second for researchers to investigate. The LHC produces tens of tens of millions of collisions each 2nd, however only some thousand of them will also be saved, as recording each collision would briefly eat the entire to be had information garage.

Because of this CMS is supplied with a real-time information variety set of rules referred to as the cause, which comes to a decision whether or not or no longer a given collision is attention-grabbing. Due to this fact, it’s not just a upper quantity of information that might assist to expose proof of the darkish photon, but additionally the way in which through which the cause gadget is fine-tuned to search for particular phenomena.
“We now have truly stepped forward our skill to cause on displaced muons,” says Juliette Alimena from the CMS experiment. “This permits us to gather a lot more occasions than sooner than with muons which might be displaced from the collision level by way of distances from a couple of hundred micrometers to a number of meters. Thank you to those enhancements, if darkish photons exist, CMS is now a lot more prone to to find them.”
The CMS cause gadget has been an important to this seek, and used to be particularly subtle between Runs 2 and three to seek for unique long-lived debris. In consequence, the collaboration has been in a position to make use of the LHC extra successfully, acquiring a powerful outcome the usage of only a 3rd of the volume of information as earlier searches.
To do that, the CMS group subtle the cause gadget by way of including a brand new set of rules referred to as a non-pointing muon set of rules. This development supposed that even with simply 4 to 5 months of information from Run 3 in 2022, extra displaced-muon occasions had been recorded than within the a lot greater 2016–18 Run 2 dataset. The brand new protection of the triggers massively will increase the momentum levels of the muons which might be picked up, permitting the group to discover new areas the place long-lived debris could also be hiding.
The CMS group will proceed the usage of essentially the most tough ways to investigate all information taken in the rest years of Run 3 operations, with the purpose of additional exploring physics past the usual fashion.

Additional information:
Seek for long-lived debris decaying to a couple of muons in pp collisions at √s = 13.6 TeV with 2022 information. cms-results.internet.cern.ch/cms-re … XO-23-014/index.html

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