Higgs Duality: Contradictory Results At LHC


The latest data presented by scientists on Higgs boson shows that separate measurements of its properties are showing two slightly different masses.

Read more @ SciTechDaily

ICARUS Experiment Claims Neutrinos Aren’t Faster Than Light

Interior of the Liquid Scintillator Neutrino Detector (LSND)

A new Italian experiment indicates that neutrinos stay within the speed of light. The findings were posted on arXiv.org as a preprint, and contradict rival claims that neutrinos could break causality and travel faster than the speed of light.

Read more @ SciTechDaily

More Data of Elusive Higgs Boson from Defunct US Tevatron Collider


The elusive Higgs boson might have been spotted in the data collected by the Tevatron, a now shuttered collider at Fermilab in Batavia, Illinois. The existence of the Higgs boson is predicted by the Standard Model of particle physics.

Read more @ SciTechDaily

Possible Mistakes Found in Faster Than Light Neutrino Measurement


Back in September, the revolutionary claim that the OPERA collaboration had measured neutrinos traveling faster than the speed has light is now in doubt, as two possible sources of error have been found. The reason why this was revolutionary is because if it proved true, it would have violated Einstein’s special theory of relativity.

Read more @ SciTechDaily

Higgs Boson Signals Gain Strength at Large Hadron Collider


In December, it was announced that the two main experiments at the Large Hadron Collider (LHC), which is still the world’s largest and highest-energy particle accelerator, had possibly ferreted out the inscrutable Higgs boson. Today, the experiments at the LHC submitted the results of their analyses.

Read more @ SciTechDaily

Supersymmetry & What the LHC Is Looking For

Great article over at the New Scientist, giving a digest of the things that the LHC is looking for.

Is The Higgs Boson Trying To Sabotage The LHC?

Two physicists are speculating that the Higgs boson is trying to sabotage the Large Hadron Collider, by going back in time and messing it up so that the Higgs won’t be found. Sounds like science-fiction, but the researchers are quite serious.

Large Hadron Collider

Fantastic images of the large hadron collider in Switzerland and France, which is almost completed. It looks extremely complicated.

The Large Hadron Collider (LHC), a 27 kilometer (17 mile) long particle accelerator straddling the border of Switzerland and France, is nearly set to begin its first particle beam tests.

At a total cost of 10 billion dollars, the LHC is going to be used to smash particles together to search for the illusive Higgs boson. It’s presence has been predicted.

Another particle that physicists have been searching for is the graviton, which would be to gravity what a photon is to light. Finding the graviton would help the theories of general relativity and quantum mechanics.

Neutralinos are also particles that would be important to find. They are partly predicted by supersymmetry. Visible matter makes up 4% of the universe. 22% is made out of dark matter. The other 74% is made out of dark energy. Dark energy is the opposite of gravity, since it’s that force which pushes the universe to expand. Many physicists suspect that dark matter is made out of neutralinos.

What dark energy is, though, is a mystery. It is possible, just, that the properties of the Higgs boson will cast a little light on that mystery.

To find out more, consult the excellent article at the Economist about the LHC.

CERN Accelerator Could Be The First Time Machine

Russian mathematicians have claimed that the CERN particle accelerator could open a door to the future. (via warrenellis)