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DOI: 10.1103/physrevc.102.014602
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Projected sensitivity of the LUX-ZEPLIN experiment to the <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"><mml:mrow><mml:mn>0</mml:mn><mml:mi>ν</mml:mi><mml:mi>β</mml:mi><mml:mi>β</mml:mi></mml:mrow></mml:math> decay of <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"><mml:mmultiscripts><mml:mi>Xe</mml:mi><mml:mprescripts /><mml:none /><mml:mn>136</mml:mn></mml:mmultiscripts></mml:math>
D. S. Akerib,C. Akerlof,Ali Mohammed Alqahtani,S. Alsum,Tyler Anderson,N. Angelides,H. M. Araújo,J. E. Armstrong,M. Arthurs,X. Bai,J. Balajthy,S. Balashov,J. Bang,A. Baxter,J. R. Bensinger,E. P. Bernard,Adam Bernstein,A. Bhatti,A. Biekert,T. P. Biesiadzinski,H. J. Birch,K. E. Boast,B. Boxer,P. Brás,J. H. Buckley,V. Bugaev,S. Burdin,J. Busenitz,R. Cabrita,C. Carels,D. Carlsmith,M. C. Carmona-Benitez,Michele Cascella,C. Chan,N. Chott,Andrew A. Cole,A. Cottle,J. E. Cutter,C. E. Dahl,L. de Viveiros,J. E. Y. Dobson,E. Druszkiewicz,T. K. Edberg,S. R. Eriksen,A. Fan,S. Fiorucci,H. Flaecher,E. D. Fraser,T. Fruth,R. J. Gaitskell,J. Genovesi,C. Ghag,E. F. Gibson,M. Gilchriese,S. Gokhale,M. G. D. van der Grinten,C. Hall,Aaron W. Harrison,S. J. Haselschwardt,S. A. Hertel,J. Y.K. Hor,M. Horn,Di Huang,C. M. Ignarra,O. Jahangir,W. Ji,James Turner Johnson,A. Kaboth,A. Kamaha,K. Kamdin,K. Kazkaz,D. Khaitan,A. Khazov,I. Khurana,C. D. Kocher,L. Korley,E. V. Korolkova,J. Kras,H. Kraus,S. Kravitz,Lukasz Kreczko,Benjamin Krikler,V. A. Kudryavtsev,E. A. Leason,J. Lee,D. S. Leonard,K. T. Lesko,C. Lévy,J. Li,J. Liao,Fenglin Liao,J. Lin,A. Lindote,R. Linehan,W. H. Lippincott,R. Liu,X. Liu,C. Loniewski,M. I. Lopes,B. López Paredes,W. Lorenzon,S. Luitz,Justin Lyle,P. Majewski,A. Manalaysay,L. Manenti,R. L. Mannino,N. Marangou,M. F. Marzioni,D. N. McKinsey,J. McLaughlin,Yue Meng,E. H. Miller,E. Mizrachi,A. Monte,M. E. Monzani,J. A. Morad,E. Morrison,B. J. Mount,A. St. J. Murphy,D. Naim,Andrew Naylor,C. Nedlik,C. Nehrkorn,H. N. Nelson,F. Neves,J. A. Nikoleyczik,A. Nilima,K. O’Sullivan,I. Olcina,K. C. Oliver-Mallory,Surajit Pal,K. J. Palladino,J. D. Palmer,N. Parveen,E. K. Pease,B. Penning,G. Pereira,K. Pushkin,J. Reichenbacher,C. Rhyne,Q. Riffard,G. R. C. Rischbieter,R. Rosero,P. Rossiter,G. Rutherford,D. Santone,A. B. M. R. Sazzad,R. W. Schnee,M. Schubnell,Danelle Seymour,S. Shaw,T. Shutt,Joseph Silk,C. Silva,R. Smith,M. Solmaz,V. Solovov,P. Sørensen,I. Stancu,A. Stevens,K. Stifter,T. J. Sumner,N. Swanson,M. Szydagis,Mustafa Tan,WC Taylor,R. Taylor,D. J. Temples,P. A. Terman,D. R. Tiedt,M. Timalsina,A. Tomás,Mani Tripathi,D. R. Tronstad,W. Turner,L. Tvrznikova,U. Utku,A. Vacheret,Audrius Vaitkus,J. J. Wang,W. Wang,J. R. Watson,R. Webb,R. White,T. J. Whitis,F. L. H. Wolfs,D. Woodward,X. Xiang,J. Xu,M. Yeh,P. Zarzhitsky
Sensitivity (control systems)
Engineering
Electronic engineering
2020
The LUX-ZEPLIN (LZ) experiment will enable a neutrinoless double β decay search in parallel to the main science goal of discovering dark matter particle interactions. We report the expected LZ sensitivity to 136Xe neutrinoless double β decay, taking advantage of the significant (>600 kg) 136Xe mass contained within the active volume of LZ without isotopic enrichment. After 1000 live-days, the median exclusion sensitivity to the half-life of 136Xe is projected to be 1.06×1026 years (90% confidence level), similar to existing constraints. We also report the expected sensitivity of a possible subsequent dedicated exposure using 90% enrichment with 136Xe at 1.06×1027 years.Received 12 December 2019Accepted 2 June 2020DOI:https://doi.org/10.1103/PhysRevC.102.014602©2020 American Physical SocietyPhysics Subject Headings (PhySH)Research AreasNeutrinoless double beta decayRare decaysProperties90 ≤ A ≤ 149TechniquesDark matter detectorsRadiation detectorsParticles & FieldsNuclear Physics
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“Projected sensitivity of the LUX-ZEPLIN experiment to the <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"><mml:mrow><mml:mn>0</mml:mn><mml:mi>ν</mml:mi><mml:mi>β</mml:mi><mml:mi>β</mml:mi></mml:mrow></mml:math> decay of <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"><mml:mmultiscripts><mml:mi>Xe</mml:mi><mml:mprescripts /><mml:none /><mml:mn>136</mml:mn></mml:mmultiscripts></mml:math>” is a paper by D. S. Akerib C. Akerlof Ali Mohammed Alqahtani S. Alsum Tyler Anderson N. Angelides H. M. Araújo J. E. Armstrong M. Arthurs X. Bai J. Balajthy S. Balashov J. Bang A. Baxter J. R. Bensinger E. P. Bernard Adam Bernstein A. Bhatti A. Biekert T. P. Biesiadzinski H. J. Birch K. E. Boast B. Boxer P. Brás J. H. Buckley V. Bugaev S. Burdin J. Busenitz R. Cabrita C. Carels D. Carlsmith M. C. Carmona-Benitez Michele Cascella C. Chan N. Chott Andrew A. Cole A. Cottle J. E. Cutter C. E. Dahl L. de Viveiros J. E. Y. Dobson E. Druszkiewicz T. K. Edberg S. R. Eriksen A. Fan S. Fiorucci H. Flaecher E. D. Fraser T. Fruth R. J. Gaitskell J. Genovesi C. Ghag E. F. Gibson M. Gilchriese S. Gokhale M. G. D. van der Grinten C. Hall Aaron W. Harrison S. J. Haselschwardt S. A. Hertel J. Y.K. Hor M. Horn Di Huang C. M. Ignarra O. Jahangir W. Ji James Turner Johnson A. Kaboth A. Kamaha K. Kamdin K. Kazkaz D. Khaitan A. Khazov I. Khurana C. D. Kocher L. Korley E. V. Korolkova J. Kras H. Kraus S. Kravitz Lukasz Kreczko Benjamin Krikler V. A. Kudryavtsev E. A. Leason J. Lee D. S. Leonard K. T. Lesko C. Lévy J. Li J. Liao Fenglin Liao J. Lin A. Lindote R. Linehan W. H. Lippincott R. Liu X. Liu C. Loniewski M. I. Lopes B. López Paredes W. Lorenzon S. Luitz Justin Lyle P. Majewski A. Manalaysay L. Manenti R. L. Mannino N. Marangou M. F. Marzioni D. N. McKinsey J. McLaughlin Yue Meng E. H. Miller E. Mizrachi A. Monte M. E. Monzani J. A. Morad E. Morrison B. J. Mount A. St. J. Murphy D. Naim Andrew Naylor C. Nedlik C. Nehrkorn H. N. Nelson F. Neves J. A. Nikoleyczik A. Nilima K. O’Sullivan I. Olcina K. C. Oliver-Mallory Surajit Pal K. J. Palladino J. D. Palmer N. Parveen E. K. Pease B. Penning G. Pereira K. Pushkin J. Reichenbacher C. Rhyne Q. Riffard G. R. C. Rischbieter R. Rosero P. Rossiter G. Rutherford D. Santone A. B. M. R. Sazzad R. W. Schnee M. Schubnell Danelle Seymour S. Shaw T. Shutt Joseph Silk C. Silva R. Smith M. Solmaz V. Solovov P. Sørensen I. Stancu A. Stevens K. Stifter T. J. Sumner N. Swanson M. Szydagis Mustafa Tan WC Taylor R. Taylor D. J. Temples P. A. Terman D. R. Tiedt M. Timalsina A. Tomás Mani Tripathi D. R. Tronstad W. Turner L. Tvrznikova U. Utku A. Vacheret Audrius Vaitkus J. J. Wang W. Wang J. R. Watson R. Webb R. White T. J. Whitis F. L. H. Wolfs D. Woodward X. Xiang J. Xu M. Yeh P. Zarzhitsky published in 2020. It has an Open Access status of “green”. You can read and download a PDF Full Text of this paper here.