So far no WIMP interaction has been observed, so the sensitivity needs to be improved further. This will be achieved by increasing the total detector mass (and with this the probability that a WIMP interacts in the detector) and at the same time reducing the background and improving the discrimination power. This effort started in 2009 under the name SuperCDMS.
The first set of new detectors has been installed in the experimental setup at Soudan and is operating since summer 2009. First tests show that the background levels are in the expected range. Over the course of the next year all CDMS detectors will be replaced by the new larger detectors. The active mass will increase by more than a factor of three to about 15 kg.See:CDMS and SuperCDMS Experiments
It is known since the 1930's that a significant part of the mass of the universe is invisible. This invisible material has been named Dark Matter. Weakly Interacting Massive Particles (WIMPs) are considered as one of the most convincing explanation for this phenomenon.See:SuperCDMS Queen's Home
SNOLAB is an underground science laboratory specializing in neutrino and dark matter physics. Situated two km below the surface in the Vale Inco Creighton Mine located near Sudbury Ontario Canada, SNOLAB is an expansion of the existing facilities constructed for the Sudbury Neutrino Observatory (SNO) solar neutrino experiment. SNOLAB follows on the important achievements in neutrino physics achieved by SNO and other underground physics measurements. The primary scientific emphasis at SNOLAB will be on astroparticle physics with the principal topics being:
Low Energy Solar Neutrinos;
Neutrinoless Double Beta Decay;
Cosmic Dark Matter Searches;
Supernova Neutrino Searches.
The Sudbury Neutrino Laboratory, located two kilometres below the surface, is the site of groundbreaking international research.
Ernest Orlando, Lawrence Berkeley National Laboratory
Latest Results in the Search for Dark Matter
Thursday, December 17, 2009