R. DeVoe scite author profile

Classical collisions with an ideal gas generate non-Maxwellian distribution functions for a single ion in a radio frequency ion trap. The distributions have power-law tails whose exponent depends on the ratio of buffer gas to ion mass. This provides a statistical explanation for the previously observed transition from cooling to heating. Monte Carlo results approximate a Tsallis distribution over a wide range of parameters and have ab initio agreement with experiment.

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Search for Neutrinoless Double-Beta Decay with the Upgraded EXO-200 Detector

Albert¹,

Anton²,

Badhrees³

et al. 2018

Phys. Rev. Lett.

223

206

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Results from a search for neutrinoless double-beta decay (0νββ) of ^{136}Xe are presented using the first year of data taken with the upgraded EXO-200 detector. Relative to previous searches by EXO-200, the energy resolution of the detector has been improved to σ/E=1.23%, the electric field in the drift region has been raised by 50%, and a system to suppress radon in the volume between the cryostat and lead shielding has been implemented. In addition, analysis techniques that improve topological discrimination between 0νββ and background events have been developed. Incorporating these hardware and analysis improvements, the median 90% confidence level 0νββ half-life sensitivity after combining with the full data set acquired before the upgrade has increased twofold to 3.7×10^{25} yr. No statistically significant evidence for 0νββ is observed, leading to a lower limit on the 0νββ half-life of 1.8×10^{25} yr at the 90% confidence level.

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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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R. DeVoe

Observation of Superradiant and Subradiant Spontaneous Emission of Two Trapped Ions

Search for Neutrinoless Double-Beta Decay inXe136with EXO-200

Power-Law Distributions for a Trapped Ion Interacting with a Classical Buffer Gas

Search for Neutrinoless Double-Beta Decay with the Upgraded EXO-200 Detector

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

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