Monday, May 25, 2015

10 Facts about Antimatter

Summary: Remember when this blog started and I tried to keep it focused solely on antimatter? That turned out to be too specific but I am once again able to get back to the heart of this blog. While not and advancement in antimatter studies, this is a recent article on ten facts you may not have known about antimatter. Contained within the article are helpful links to more topics related to antimatter that can quench your thirst for knowledge. Enjoy.

SymmetryMag

Friday, May 15, 2015

The Case of the Strangled Galaxies

Summary: Galaxies are considered dead when they no longer are producing new stars. It is still unclear what causes this process but what astronomers do now know is the most common time scale of them dying -- approximately four billion years. Astronomers are calling this process strangulation.

Astronomers are able to tell how quickly the galaxy died based on the metal content remaining in the galaxy. The more stars that are being formed in a galaxy, the more metal content is seen. The way it works is simple. If a galaxy dies quickly and quite violently (for instance if the cool gas that fuels the star formation is suddenly ripped away), then the stars immediately stop producing and the metal content remains the same. But if the galaxy if cut off from the supply of cool gas but still continues to produce stars, using up the last of the supply, the metal content in the galaxy grows and grows until it "suffocates".

The difference was seen when comparing the spectra of light emitted by red, passive galaxies and blue, star-forming galaxies. With the data from Sloan they were able to see that the dead galaxies were, on average, four billion years older than the active galaxies. This is consistent with the amount of time the astronomers had calculated it would take to burn of the remaining amount of gas supply whilst strangling to death.

While the astronomers are now confident that death by strangulation is the most common way a galaxy meets it's ultimate end, it is still not clear what causes this. The most likely suspect at this point in time seems to be overcrowding which would lead to a greater probability of disruption to the gas supply, but this would need further investigation.



BBC News
Nature

Friday, May 8, 2015

LHC is Up and Running

Summary: After the scheduled two year shutdown and update of the Large Hadron Collider at CERN, the LHC is back and ready for even higher energy collisions. It began smashing particles again Easter Sunday at energies of 450 GeV. Amazingly enough, this is a lower energy and will be used for calibrations before the truly record breaking energies of 7,000 GeV starting on June 1st.


BBC News

Update: Test collisions have broken the energy record already at 13 TeV.

BBC News