Literature DB >> 15672271

Hunting for Dark Matter particles with new detectors.

Godehard Angloher1, Josef Jochum.   

Abstract

Although first hints of the existence of Dark Matter were observed by the Swiss astronomer Zwicky already in the 1930s, only in recent years has it become known that the universe, in fact, is dominated by particles whose nature is almost unknown and which have never been directly observed. Meanwhile, as the existence of these particles is postulated not only by astronomy, but also cosmology and theoretical particle physics, there is significant effort to detect them in a laboratory experiment and determine their physical properties. However, as the interaction rate between Dark Matter particles and ordinary matter is extremely low, detectors have to be extremely sensitive. Low temperature detectors have been available for more than a decade and have now reached the highest sensitivity for direct Dark Matter detection. In this article, we give a short overview of observational results that suggest the existence of Dark Matter particles and what physicists have learned so far about their properties. The main focus is on the experimental challenges and effort for their direct detection.

Mesh:

Year:  2005        PMID: 15672271     DOI: 10.1007/s00114-004-0587-8

Source DB:  PubMed          Journal:  Naturwissenschaften        ISSN: 0028-1042


  4 in total

1.  Exclusion limits on the WIMP-nucleon cross section from the cryogenic dark matter search.

Authors:  R Abusaidi; D S Akerib; P D Barnes; D A Bauer; A Bolozdynya; P L Brink; R Bunker; B Cabrera; D O Caldwell; J P Castle; R M Clarke; P Colling; M B Crisler; A Cummings; A Da Silva; A K Davies; R Dixon; B L Dougherty; D Driscoll; S Eichblatt; J Emes; R J Gaitskell; S R Golwala; D Hale; E E Haller; J Hellmig; M E Huber; K D Irwin; J Jochum; F P Lipschultz; A Lu; V Mandic; J M Martinis; S W Nam; H Nelson; B Neuhauser; M J Penn; T A Perera; M C Perillo Isaac; B Pritychenko; R R Ross; T Saab; B Sadoulet; R W Schnee; D N Seitz; P Shestople; T Shutt; A Smith; G W Smith; A H Sonnenschein; A L Spadafora; W Stockwell; J D Taylor; S White; S Yellin; B A Young
Journal:  Phys Rev Lett       Date:  2000-06-19       Impact factor: 9.161

2.  New upper limit on the total neutrino mass from the 2 degree field galaxy redshift survey.

Authors:  Ø Elgarøy; O Lahav; W J Percival; J A Peacock; D S Madgwick; S L Bridle; C M Baugh; I K Baldry; J Bland-Hawthorn; T Bridges; R Cannon; S Cole; M Colless; C Collins; W Couch; G Dalton; R De Propris; S P Driver; G P Efstathiou; R S Ellis; C S Frenk; K Glazebrook; C Jackson; I Lewis; S Lumsden; S Maddox; P Norberg; B A Peterson; W Sutherland; K Taylor
Journal:  Phys Rev Lett       Date:  2002-07-19       Impact factor: 9.161

3.  Alpine detector fails to confirm Italian sighting of dark matter.

Authors:  Alison Abbott
Journal:  Nature       Date:  2002-06-06       Impact factor: 49.962

4.  First results from the Cryogenic Dark Matter Search in the Soudan Underground Laboratory.

Authors:  D S Akerib; J Alvaro-Dean; M S Armel-Funkhouser; M J Attisha; L Baudis; D A Bauer; J Beaty; P L Brink; R Bunker; S P Burke; B Cabrera; D O Caldwell; D Callahan; J P Castle; C L Chang; R Choate; M B Crisler; P Cushman; R Dixon; M R Dragowsky; D D Driscoll; L Duong; J Emes; R Ferril; J Filippini; R J Gaitskell; M Haldeman; D Hale; D Holmgren; M E Huber; B Johnson; W Johnson; S Kamat; M Kozlovsky; L Kula; S Kyre; B Lambin; A Lu; R Mahapatra; A G Manalaysay; V Mandic; J May; R McDonald; B Merkel; P Meunier; N Mirabolfathi; S Morrison; H Nelson; R Nelson; L Novak; R W Ogburn; S Orr; T A Perera; M C Perillo Isaac; E Ramberg; W Rau; A Reisetter; R R Ross; T Saab; B Sadoulet; J Sander; C Savage; R L Schmitt; R W Schnee; D N Seitz; B Serfass; A Smith; G Smith; A L Spadafora; K Sundqvist; J-P F Thompson; A Tomada; G Wang; J Williams; S Yellin; B A Young
Journal:  Phys Rev Lett       Date:  2004-11-16       Impact factor: 9.161
  4 in total

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