Large Hadron Collider: First Detection of Exotic “X” Particles in Quark-Gluon Plasma - SciTechDaily

Physicists have found evidence of rare X particles in the quark-gluon plasma produced in the Large Hadron Collider (LHC) at CERN.

The findings could redefine the kinds of particles that were abundant in the early universe.

The findings could redefine the kinds of particles that were abundant in the early universe.

Today, X particles are extremely rare, though physicists have theorized that they may be created in particle accelerators through quark coalescence, where high-energy collisions can generate similar flashes of quark-gluon plasma.

Now physicists at MIT’s Laboratory for Nuclear Science and elsewhere have found evidence of X particles in the quark-gluon plasma produced in the Large Hadron Collider (LHC) at CERN, the European Organization for Nuclear Research, based near Geneva, Switzerland.

The results, published this week in Physical Review Letters, mark the first time researchers have detected X particles in quark-gluon plasma — an environment that they hope will illuminate the particles’ as-yet unknown structure.

It has been hypothesized that X (3872) and other exotic particles might be better illuminated in quark-gluon plasma.

“But people thought it would be too difficult to search for them because there are so many other particles produced in this quark soup.”.

In their new study, Lee and his colleagues looked for signs of X particles within the quark-gluon plasma generated by heavy-ion collisions in CERN’s Large Hadron Collider.

“After the quark-gluon plasma forms and cools down, there are so many particles produced, the background is overwhelming,” Lee says.

Immediately after particles form in quark-gluon plasma, they quickly break down into “daughter” particles that scatter away.

Now that the team has shown X particles can be detected in quark-gluon plasma, they plan to probe this particle with quark-gluon plasma in more detail, to pin down the X particle’s structure.

“That will broaden our view of the kinds of particles that were produced abundantly in the early universe.”.

The X particle with mass 3872 has good structural formation to explain evolution of proton and neutron.This can corelate with muon.So,origin òf particles got a right impact ìn the field of basic Particle Theory.X particle has abundent property to form neutron from proton and from self;converse fact is true that,this can be produced in laboratory as an inverse phenomena occured in big bang to establish the truth

The abundance of X-particle in big bang is simply symbolic to indicate the reverse phenomena that actualĺy occured.But this experiment can help in this way to understañd origin of particles like proton and neutron

The X particle with mass 3872 has good structural formation to explain evolution of proton and neutron.This can corelate with muon.So,origin òf particles got a right impact ìn the field of basic Particle Theory.X particle has abundant property to form neutron from proton and from self;converse fact is true that,this can be produced in laboratory as an inverse phenomena occured in big bang to establish the truth

The structural dynamics of proton or neutron formation frim another fundamental unit particle follows to produce X-particle in the laboratory.But this reversal in process can acknowledge à lot.Thanks and congratulations to the CERN

The X particle with mass 3872 has good structural formation to explain evolution of proton and neutron.This can corelate with muon.So,origin òf particles got a right impact ìn the field of basic Particle Theory.X particle has abundant property to form neutron from proton and from self;converse fact is true that,this can be produced in laboratory as an inverse phenomena occured in big bang to establish the truth

The structural dynamics of proton or neutron formation frim another fundamental unit particle follows to produce X-particle in the laboratory.But this reversal in process can acknowledge à lot.Thanks and congratulations to the CERN

This fact is also followed from the experiment that,at a time juat after the big bang quark-gluon plasma and X3872 particles formed simultaneously.As the Universe gained Gravitation and definite shape with formation of proton and neutron,the mirror image counterparticle of this process X 3872 became vanished