Scientists hailed CERN’s confirmation of the Higgs Boson in July of 2012, speculating that it could one day make light speed travel possible by “un-massing” objects or allow huge items to be launched into space by “switching off” the Higgs. CERN scientist Albert de Roeck likened it to the discovery of electricity, when he said humanity could never have imagined its future applications.
CERN physicists hope that the “new physics” will provide a more straightforward explanation for the characteristics of the Higgs boson than that derived from the current Standard Model. This new physics is sorely needed to find solutions to a series of yet unresolved problems, as presently only the visible universe is explained, which constitutes just four percent of total matter.”The Standard Model has no explanation for the so-called dark matter, so it does not describe the entire universe – there is a lot that remains to be understood,” says Dr. Volker Büscher of Johannes Gutenberg University Mainz (JGU).
The discovery of the long-sought Higgs boson, an elusive particle thought to help explain why matter has mass, was hailed as a huge moment for science by physicists. In July of 2012, CERN, the European Organization for Nuclear Research in Geneva, announced the discovery of a new particle that could be the long sought-after Higgs boson. The particle has a mass of about 126 gigaelectron volts (GeV), roughly that of 126 protons.
The new evidence came from an enormously large volume of data that has been more than doubled since December 2011. According to CERN, the LHC collected more data in the months between April and June 2012 than in the whole of 2011. In addition, the efficiency has been improved to such an extent that it is now much easier to filter out Higgs-like events from the several hundred million particle collisions that occur every second.
The existence of the Higgs boson was predicted in 1964 and it is named after the British physicist Peter Higgs. It is the last piece of the puzzle that has been missing from the Standard Model of physics and its function is to give other elementary particles their mass. According to the theory, the so-called Higgs field extends throughout the entire universe. The mass of individual elementary particles is determined by the extent to which they interact with the Higgs bosons.
“The discovery of the Higgs boson represents a milestone in the exploration of the fundamental interactions of elementary particles,” said Professor Dr. Matthias Neubert, Professor for Theoretical Elementary Particle Physics and spokesman for the Cluster of Excellence PRISMA at JGU. .,,
Cool. Demassing could be a combination warp drive and transporter. Perfect timing for the new Star Trek movie tomorrow!