CDMS, Supersymmetry and Extra Dimensions

D. S. Akerib, M. J. Attisha, C. N. Bailey, L. Baudis, D. A. Bauer, P. L. Brink, P. P. Brusov, R. Bunker, B. Cabrera, D. O. Caldwell, C. L. Chang, J. Cooley, M. B. Crisler, P. Cushman, M. Daal, R. Dixon, M. R. Dragowsky, D. D. Driscoll, L. Duong, R. FerrilJ. Filippini, R. J. Gaitskell, S. R. Golwala, D. R. Grant, R. Hennings-Yeomans, D. Holmgren, M. E. Huber, S. Kamat, S. Leclercq, A. Lu, R. Mahapatra, V. Mandic, P. Meunier, N. Mirabolfathi, H. Nelson, R. Nelson, R. W. Ogburn, T. A. Perera, M. Pyle, E. Ramberg, W. Rau, A. Reisetter, R. R. Ross, T. Saab, B. Sadoulet, J. Sander, C. Savage, R. W. Schnee, D. N. Seitz, B. Serfass

Research output: Contribution to journalArticlepeer-review

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The CDMS experiment aims to directly detect massive, cold dark matter particles originating from the Milky Way halo. Charge and lattice excitations are detected after a particle scatters in a Ge or Si crystal kept at ∼30 mK, allowing to separate nuclear recoils from the dominating electromagnetic background. The operation of 12 detectors in the Soudan mine for 75 live days in 2004 delivered no evidence for a signal, yielding stringent limits on dark matter candidates from supersymmetry and universal extra dimensions. Thirty Ge and Si detectors are presently installed in the Soudan cryostat, and operating at base temperature. The run scheduled to start in 2006 is expected to yield a one order of magnitude increase in dark matter sensitivity.

Original languageEnglish (US)
Pages (from-to)95-98
Number of pages4
JournalNuclear Physics B - Proceedings Supplements
StatePublished - Nov 2007


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