Science roundup: Higgs boson passes peer review/Antimatter propulsion looks feasible
September 12, 2012
Before the newsy stuff I had to give you that eye-gasm of a photo of our nearest star a.k.a. the Sun, blowing off millions of tons of hot gas into space a couple weeks ago. This image combines two spectrums of light that we can’t see with our eyes, both of which are in the ultraviolet range and show the magnetic activity better. Both were taken with NASA’s Solar Dynamic Observatory (SDO). We should be glad this enormous eruption wasn’t aimed directly at Earth, else we could have had serious satellite and power disruptions.
Now for the headlines:
- The teams of physicists at the Large Hadron Collider have officially published their findings on the Higgs boson in a legit, peer-reviewed journal- Physics Letters B. This is the same journal in which Peter Higgs first published his revolutionary paper that began the hunt for the boson to begin with. Once a discovery passes this level of scrutiny, it’s DONE. That means we did it! Scientists have been a little hesitant to actually call this discovered particle the Higgs boson, however, since all the properties and attributes of the particle are yet to be nailed down. Over the next few years we’ll start to get a better picture of just what this particle looks and feels like, so to speak, and I’m sure there will be many more questions raised than answered. (Via NewScientist)
- Star Trek is starting to look a bit more like reality than science fiction thanks to new research being done into anitmatter and fusion propulsion. That’s right- antimatter, as in the stuff they used to run the Enterprise‘s Warp Drive. NASA teamed up with consulting firm the Tauri Group for a presentation that included a prediction that human technology will have advanced to the point that antimatter and fusion propulsion will be possible for spaceships by around 2060. The technology will not, however be capable of faster-than-light travel. According to the 2010 report the presentation was based upon, it would take about 4 months to get a ship to Jupiter with this technology. That’s significantly faster than current technology, but still a very VERY far cry from Warp speed. (Via Space.com)