Greeting from caps TV at today's topic would be about the CMS Huntford are photons trying from the Higgs boson the
CMS collaboration has searched for collision events in which the Higgs boson
transforms in a hypothetical and a photon
They know it's there, but they don't know what it's made up of
That pretty smart sums up scientists knowledge of dark matter. This knowledge comes from the observations of the universe
Which indicate that the penis will form of matter is about five six times more abundant than the visible matter
One idea is that dark matter comprises dark matter dark particles that interact with each other thread
mediator particle for the dark photon named in analogy with the ordinary photon that acts as a mediator between
Two charged particles a dark photon will also interact weakly with the known particles
described below standard model of particle physics
including the Higgs boson
the CMS collaboration
Recently reported best results of its latest search for dr. Puns the
collaboration used a Dutch Quran called proton collision dataset
collected Newton the LHC's second run to search for
Instances in which the Higgs boson might transform or decayed into a photo and a master Starfucker
they focused on cases in which the
Boson is produced together with the Z boson. That itself decays
Into electrons and they're heavier cousins known as neons
Such instances are accepted to be extremely rare and finding them requires
reducing the presence of potential dark saga, which particle radicals who won't see
For this researchers add up the mood Luanne top of the detected articles in the transverse direction
that is at the right angles to the colliding beams of protons and
Identify any missing momentum needed to reach a total value of zero such machine transverse momentum
indicates and
undetected particle
But there's another step to distinguish between a possible - photon unknown articles this entails
exterminating the mass of particles the decays into the Datatech photon and
That particle if the missing transverse momentum is carried by the dark photons produced in the decay of the Higgs boson
That mass should correspond to the Higgs boson mass
the CMS collaboration
Followed this approach but found no signal of dark for gotcha
However, the collaboration placed upper bounds on the likelihood that a signal would have been seen
Another null result. Yes
The result the top quark mass does seem to run as portrayed by quantum chromodynamics
That is it decreases with increasing energy scale her
The result is based on only three experimental data points more data points as well as wiltrout
Theoretical predictions should be able to tell with more precision whether that's indeed the case. Thank you
 
