K. M. Yocum scite author profile

We report on several features present in the energy spectrum from an ultra low-noise germanium detector operated at 2,100 m.w.e. By implementing a new technique able to reject surface events, a number of cosmogenic peaks can be observed for the first time. We discuss several possible causes for an irreducible excess of bulk-like events below 3 keVee, including a dark matter candidate common to the DAMA/LIBRA annual modulation effect, the hint of a signal in CDMS, and phenomenological predictions. Improved constraints are placed on a cosmological origin for the DAMA/LIBRA effect.

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CoGeNT: A search for low-mass dark matter usingp-type point contact germanium detectors

Aalseth

Barbeau

Colaresi³

et al. 2013

Phys. Rev. D

403

466

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CoGeNT employs p-type point-contact (PPC) germanium detectors to search for Weakly Interacting Massive Particles (WIMPs). By virtue of its low energy threshold and ability to reject surface backgrounds, this type of device allows an emphasis on low-mass dark matter candidates (mχ ∼ 10 GeV/c 2 ). We report on the characteristics of the PPC detector presently taking data at the Soudan Underground Laboratory, elaborating on aspects of shielding, data acquisition, instrumental stability, data analysis, and background estimation. A detailed background model is used to investigate the low energy excess of events previously reported, and to assess the possibility of temporal modulations in the low-energy event rate. Extensive simulations of all presently known backgrounds do not provide a viable background explanation for the excess of low-energy events in the CoGeNT data, or the previously observed temporal variation in the event rate. Also reported on for the first time is a determination of the surface (slow pulse rise time) event contamination in the data as a function of energy. We conclude that the CoGeNT detector technology is well suited to search for the annual modulation signature expected from dark matter particle interactions in the region of WIMP mass and coupling favored by the DAMA/LIBRA results.PACS numbers: 85.30.-z, 95.35.+d

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Search for an Annual Modulation in ap-Type Point Contact Germanium Dark Matter Detector

et al. 2011

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Fifteen months of cumulative CoGeNT data are examined for indications of an annual modulation, a predicted signature of Weakly Interacting Massive Particle (WIMP) interactions. Presently available data support the presence of a modulated component of unknown origin, with parameters prima facie compatible with a galactic halo composed of light-mass WIMPs. Unoptimized estimators yield a statistical significance for a modulation of ∼ 2.8σ, limited by the short exposure.

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Experimental Constraints on a Dark Matter Origin for the DAMA Annual Modulation Effect

et al. 2008

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A claim for evidence of dark matter interactions in the DAMA experiment has been recently reinforced. We employ a new type of germanium detector to conclusively rule out a standard isothermal galactic halo of weakly interacting massive particles as the explanation for the annual modulation effect leading to the claim. Bounds are similarly imposed on a suggestion that dark pseudoscalars might lead to the effect. We describe the sensitivity to light dark matter particles achievable with our device, in particular, to next-to-minimal supersymmetric model candidates.

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Erratum: Experimental Constraints on a Dark Matter Origin for the DAMA Annual Modulation Effect [Phys. Rev. Lett.PRLTAO0031-9007101, 251301 (2008)]

Aalseth¹,

Barbeau²,

Cerdeño³

et al. 2009

Phys. Rev. Lett.

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K. M. Yocum

Results from a Search for Light-Mass Dark Matter with ap-Type Point Contact Germanium Detector

CoGeNT: A search for low-mass dark matter usingp-type point contact germanium detectors

Search for an Annual Modulation in ap-Type Point Contact Germanium Dark Matter Detector

Experimental Constraints on a Dark Matter Origin for the DAMA Annual Modulation Effect

Erratum: Experimental Constraints on a Dark Matter Origin for the DAMA Annual Modulation Effect [Phys. Rev. Lett.PRLTAO0031-9007101, 251301 (2008)]

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