Question C.III: Fundamental theoretical problems
Updated: 2012-03-31 14:25:13
: SciLogs All Blogs Next Question C.III : Fundamental theoretical problems from Pavel Kroupa 31. March 2012, 15:25 Rather than being posted soon after II : MOND works far too well published on the 21.03.2011 a delay caused by internal university issues arose . We are back though , for the time being , with the originally advertised Question C.III : Fundamental theoretical problems this contribution To re-iterate : what is the purpose of this series on SciLogs We are aiming to document , within the time we have for such matters , the already noticeable paradigm shift away from a dark-matter dominated Einsteinian inflationary cosmology model to a different description which may , or may not , be fundamentally based on Einstein's GR theory . nbsp Continuing now with Qestion C.III : : Summary
An international collaboration of scientists has reported a landmark calculation of the decay process of a kaon into two pions, using breakthrough techniques on some of the world's fastest supercomputers.
The Majorana Demonstrator collaboration began moving their experiment into the Davis Campus on the 4850 Level this week.
If attendees at the welcome reception for CERN’s first artist-in-residence learned one thing last night, it was that Julius von Bismarck is not afraid to disrupt others with his art.
The decommissioning of the Tevatron represented the end of an era, but it also is ushering in the next generation of physics by providing valuable equipment to other experiments.
Scientists on the ICARUS experiment at Gran Sasso, Italy, announced today that they had found no evidence of superluminal neutrinos in a cross-check of earlier analysis from the OPERA experiment, also located at Gran Sasso.
Retired CERN physicist Cristoforo Benvenuti learned a thing or two about building a better solar panel through his work on particle accelerators. The Geneva International Airport recently ordered 300.
Scientists recently proved possible a way to converse when radio waves won’t do. For the first time, physicists have successfully transmitted a message using neutrinos.
A cluster of galaxies located about 2.3 billion light years from Earth.
The Tevatron may be shut down for good, but – as evidenced by the catalogue of results presented at this week’s Rencontres de Moriond conference – the collider’s experiments still have plenty to say. In some areas, the Fermilab experiments still hold the advantage over those at the higher-powered Large Hadron Collider at CERN.
A collision of massive galaxy clusters located about 2.4 billion light years from Earth.