K. Skarpaas scite author profile

LUX-ZEPLIN (LZ) is a next-generation dark matter direct detection experiment that will operate 4850 feet underground at the Sanford Underground Research Facility (SURF) in Lead, South Dakota, USA. Using a two-phase xenon detector with an active mass of 7 tonnes, LZ will search primarily for low-energy interactions with weakly interacting massive particles (WIMPs), which are hypothesized to make up the dark matter in our galactic halo. In this paper, the projected WIMP sensitivity of LZ is presented based on the latest background estimates and simulations of the detector. For a 1000 live day run using a 5.6-tonne fiducial mass, LZ is projected to exclude at 90% confidence level spin-independent WIMP-nucleon cross sections above 1.4 × 10 −48 cm 2 for a 40 GeV=c 2 mass WIMP. Additionally, a 5σ discovery potential is projected, reaching cross sections below the exclusion limits of recent experiments. For spin-dependent WIMP-neutron(-proton) scattering, a sensitivity of 2.3 × 10 −43 cm 2 (7.1 × 10 −42 cm 2) for a 40 GeV=c 2 mass WIMP is expected. With underground installation well underway, LZ is on track for commissioning at SURF in 2020.

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Improved measurement of the2νββhalf-life of136Xe with the EXO-200 detector

Albert¹,

Auger²,

Auty³

et al. 2014

Phys. Rev. C

190

207

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We report on an improved measurement of the 2νββ half-life of 136 Xe performed by EXO-200. The use of a large and homogeneous time projection chamber allows for the precise estimate of the fiducial mass used for the measurement, resulting in a small systematic uncertainty. We also discuss in detail the data analysis methods used for double-beta decay searches with EXO-200, while emphasizing those directly related to the present measurement. The 136 Xe 2νββ half-life is found to be T 2νββ 1/2 = 2.165 ± 0.016(stat) ± 0.059(sys) · 10 21 years. This is the most precisely measured half-life of any 2νββ decay to date.

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Sensitivity and discovery potential of the proposed nEXO experiment to neutrinoless double- β decay

Albert¹,

Anton²,

Arnquist³

et al. 2018

Phys. Rev. C

204

196

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The EXO-200 detector, part I: detector design and construction

Auger¹,

Auty²,

Barbeau³

et al. 2012

J. Inst.

183

181

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is an experiment designed to search for double beta decay of 136 Xe with a single-phase, liquid xenon detector. It uses an active mass of 110 kg of xenon enriched to 80.6% in the isotope 136 in an ultra-low background time projection chamber capable of simultaneous detection of ionization and scintillation. This paper describes the EXO-200 detector with particular attention to the most innovative aspects of the design that revolve around the reduction of backgrounds, the efficient use of the expensive isotopically enriched xenon, and the optimization of the energy resolution in a relatively large volume.-1 -arXiv:1202.2192v2 [physics.ins-det]

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K. Skarpaas

LUX-ZEPLIN (LZ) Conceptual Design Report

Projected WIMP sensitivity of the LUX-ZEPLIN dark matter experiment

Improved measurement of the2νββhalf-life of136Xe with the EXO-200 detector

Sensitivity and discovery potential of the proposed nEXO experiment to neutrinoless double- β decay

The EXO-200 detector, part I: detector design and construction

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