There are three particles, one of which is a hadron with five quarks. The 5,600-ton detector on a portion of the Large Hadron collider was used to find them.
The first double-charm tetraquark was found last year. There is a running list of exotic particles.
The more analysis we do, the more exotic hadrons we find. The discovery of hadrons in the 1950s was followed by a quark model of hadrons in the 1960s. Theparticle zoo 2.0 is being created.
quarks and antiquarks are particles that are 888-609- 888-609- 888-609- 888-609- 888-609- The hadrons are made up of quarks.
There are six flavors of quasar, which can combine to make up unique particles.
The recent discovery of the pentaquark is made of strange, up, down and charm quarks. It is the first pentaquark to have a weird quark. One is doubly charged and the other is not.
Chris Parkes said in the release that finding new types of hadrons and measuring their properties will help theorists build a model of exotic hadrons. It will help to comprehend hadrons.
Physicists at the LHC continue to find new particles a decade after the discovery of the Higgs boson. Sixty-six hadrons have been discovered at the collider, and 59 of them have been taken care of by the LHCb. Physicists expect that the very energetic collision will offer even better data to unpack the hidden foundations of our universe.
There are a lot of useful data to be gleaned besides the new particles. The search for new particles is only a small part of the work done at the LHC. We do a lot of studies on how nuclear forces work and how matter sticks together.
The future of particle physics is bright thanks to the Large Hadron collider.
What is the next big thing for physics?