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Hall A Annual Report 2014

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 نشر من قبل Mark M Dalton
 تاريخ النشر 2015
  مجال البحث فيزياء
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Report of the experimental activities in Hall A at Thomas Jefferson National Accelerator Facility during 2013.



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Report over the experimental activities in Hall A at Thomas Jefferson National Accelerator Facility.
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Report over the experimental activities in Hall A at Thomas Jefferson National Accelerator Facility during 2013.
The projected performance and detector configuration of nEXO are described in this pre-Conceptual Design Report (pCDR). nEXO is a tonne-scale neutrinoless double beta ($0 ubetabeta$) decay search in $^{136}$Xe, based on the ultra-low background liqui d xenon technology validated by EXO-200. With $simeq$ 5000 kg of xenon enriched to 90% in the isotope 136, nEXO has a projected half-life sensitivity of approximately $10^{28}$ years. This represents an improvement in sensitivity of about two orders of magnitude with respect to current results. Based on the experience gained from EXO-200 and the effectiveness of xenon purification techniques, we expect the background to be dominated by external sources of radiation. The sensitivity increase is, therefore, entirely derived from the increase of active mass in a monolithic and homogeneous detector, along with some technical advances perfected in the course of a dedicated R&D program. Hence the risk which is inherent to the construction of a large, ultra-low background detector is reduced, as the intrinsic radioactive contamination requirements are generally not beyond those demonstrated with the present generation $0 ubetabeta$ decay experiments. Indeed, most of the required materials have been already assayed or reasonable estimates of their properties are at hand. The details described herein represent the base design of the detector configuration as of early 2018. Where potential design improvements are possible, alternatives are discussed. This design for nEXO presents a compelling path towards a next generation search for $0 ubetabeta$, with a substantial possibility to discover physics beyond the Standard Model.
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