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NSR database version of April 11, 2024.

Search: Author = S.R.Elliott

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2023EL07      Phys.Rev. C 108, 035502 (2023)

S.R.Elliott, V.N.Gavrin, W.C.Haxton, T.V.Ibragimova, E.J.Rule

Gallium neutrino absorption cross section and its uncertainty

doi: 10.1103/PhysRevC.108.035502
Citations: PlumX Metrics

2022BA17      Phys.Rev.Lett. 128, 232501 (2022)

V.V.Barinov, B.T.Cleveland, S.N.Danshin, H.Ejiri, S.R.Elliott, D.Frekers, V.N.Gavrin, V.V.Gorbachev, D.S.Gorbunov, W.C.Haxton, T.V.Ibragimova, I.Kim, Y.P.Kozlova, L.V.Kravchuk, V.V.Kuzminov, B.K.Lubsandorzhiev, Y.M.Malyshkin, R.Massarczyk, V.A.Matveev, I.N.Mirmov, J.S.Nico, A.L.Petelin, R.G.H.Robertson, D.Sinclair, A.A.Shikhin, V.A.Tarasov, G.V.Trubnikov, E.P.Veretenkin, J.F.Wilkerson, A.I.Zvir

Results from the Baksan Experiment on Sterile Transitions (BEST)

NUCLEAR REACTIONS ⁷¹Ga(ν, e^-), E<1 MeV; measured reaction products, Eβ, Iβ; deduced the deficit of electron neutrinos observed in gallium-based radiochemical measurements with high-intensity neutrino sources, commonly referred to as the gallium anomaly. The Baksan Experiment on Sterile Transitions (BEST).

doi: 10.1103/PhysRevLett.128.232501
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2022BA21      Phys.Rev. C 105, 065502 (2022)

V.V.Barinov, S.N.Danshin, V.N.Gavrin, V.V.Gorbachev, D.S.Gorbunov, T.V.Ibragimova, Yu.P.Kozlova, L.V.Kravchuk, V.V.Kuzminov, B.K.Lubsandorzhiev, Yu.M.Malyshkin, I.N.Mirmov, A.A.Shikhin, E.P.Veretenkin, B.T.Cleveland, H.Ejiri, S.R.Elliott, I.Kim, R.Massarczyk, D.Frekers, W.C.Haxton, V.A.Matveev, G.V.Trubnikov, J.S.Nico, A.L.Petelin, V.A.Tarasov, A.I.Zvir, R.G.H.Robertson, D.Sinclair, J.F.Wilkerson

Search for electron-neutrino transitions to sterile states in the BEST experiment

NUCLEAR REACTIONS ⁷¹Ga(ν, e^-), E<1 MeV; measured reaction products, Eb, Iβ; deduced ⁷¹Ge yields, deficit of electron neutrinos observed in gallium-based radiochemical measurements with high-intensity neutrino sources, commonly referred as "the gallium anomaly". The Baksan Experiment on Sterile Transitions (BEST). Neutrinos from decay of the ⁵¹Cr decay.

RADIOACTIVITY ⁵¹Cr(EC); measured Eγ, Iγ, calorimetric heat; deduced T_1/2.

doi: 10.1103/PhysRevC.105.065502
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Data from this article have been entered in the XUNDL database. For more information, click here.

2019AK14      Phys.Rev. D 100, 115020 (2019)

D.Akimov, J.B.Albert, P.An, C.Awe, P.S.Barbeau, B.Becker, V.Belov, M.A.Blackston, A.Bolozdynya, B.Cabrera-Palmer, M.Cervantes, J.I.Collar, R.L.Cooper, J.Daughhetee, M.del Valle Coello, J.A.Detwiler, M.D'Onofrio, Y.Efremenko, E.M.Erkela, S.R.Elliott, L.Fabris, M.Febbraro, W.Fox, A.Galindo-Uribarri, M.P.Green, K.S.Hansen, M.R.Heath, S.Hedges, T.Johnson, M.Kaemingk, L.J.Kaufman, A.Khromov, A.Konovalov, E.Kozlova, A.Kumpan, L.Li, J.T.Librande, J.M.Link, J.Liu, K.Mann, D.M.Markoff, H.Moreno, P.E.Mueller, J.Newby, D.S.Parno, S.Penttila, D.Pershey, D.Radford, R.Rapp, H.Ray, J.Raybern, O.Razuvaeva, D.Reyna, G.C.Rich, D.Rudik, J.Runge, D.J.Salvat, K.Scholberg, A.Shakirov, G.Simakov, G.Sinev, W.M.Snow, V.Sosnovtsev, B.Suh, R.Tayloe, K.Tellez-Giron-Flores, R.T.Thornton, I.Tolstukhin, J.Vanderwerp, R.L.Varner, C.J.Virtue, G.Visser, C.Wiseman, T.Wongjirad, J.Yang, Y.-R.Yen, J.Yoo, C.-H.Yu, J.Zettlemoyer

First constraint on coherent elastic neutrino-nucleus scattering in argon

NUCLEAR REACTIONS Ar, ¹³³Cs, ¹²⁷I, Ge, ²³Na(ν, ν), E, 100 MeV; measured reaction products, nuclear recoils; deduced a limit on coherent elastic neutrino-nucleus scattering.

doi: 10.1103/PhysRevD.100.115020
Citations: PlumX Metrics

2019SA41      Phys.Rev. C 100, 024608 (2019)

R.Saldanha, H.O.Back, R.H.M.Tsang, T.Alexander, S.R.Elliott, S.Ferrara, E.Mace, C.Overman, M.Zalavadia

Cosmogenic production of ³⁹Ar and ³⁷Ar in argon

NUCLEAR REACTIONS ⁴⁰Ar(n, 2n)³⁹Ar, ⁴⁰Ar(n, d)³⁹Cl, ⁴⁰Ar(n, 4n)³⁷Ar, E=10-1000 MeV; measured Eβ using sensitive ultralow background proportional counters; deduced cross sections, production rates for ³⁷Ar and ³⁹Ar; estimated total cosmogenic production rates for ³⁹Ar from cosmic ray neutrons, protons and muons at sea level. Comparison with previous experimental measurements, and different cross-section models: TALYS, TENDL-1015, MENDEL-2P and INCL++ (ABLA07). Natural Ar samples were irradiated with fast neutrons at the LANSCE WNR ICE-HOUSE II facility. Relevance to argon-based dark matter experiments.

NUCLEAR REACTIONS ⁴⁰Ar(γ, n), (p, pn), (n, 2n)³⁹Ar, E=10-1000 MeV; ³⁸Ar(nγ)³⁹Ar, E=0.001 eV-10 MeV; ⁴⁰Ar(γ, p), (n, d), (γ, 3n), (p, 2p), (μ, n)³⁹Cl, E=10-1000 MeV; ⁴⁰Ar(γ, 3n), (p, 3np)³⁷Ar; ³⁶Ar(n, γ)³⁷Ar, E=0.001 eV-10 MeV; ³⁸Ar(n, 2n), (γ, n), (p, np)³⁷Ar; ⁴⁰Ar(n, 4n), (γ, 3n), (p, 3np)³⁷Ar; compiled experimental data for reactions, and compared to different cross section models such as TALYS and with evaluated data in ENDF/B-VIII.I to estimated total production rates of cosmogenic ³⁷Ar and ³⁹Ar.

doi: 10.1103/PhysRevC.100.024608
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2017EJ02      Phys.Rev. C 95, 055501 (2017)

H.Ejiri, S.R.Elliott

Solar neutrino interactions with the double-β decay nuclei ⁸²Se, ¹⁰⁰Mo, and ¹⁵⁰Nd

NUCLEAR REACTIONS ⁸²Se, ¹⁰⁰Mo, ¹⁵⁰Nd, ⁷⁶Ge, ¹³⁰Te, ¹³⁶Xe(ν, X), E=solar neutrinos; calculated solar-neutrino capture rates, including the effect of oscillations; evaluated background rates for calorimetric detectors in experiments for detecting 0νββ and 2νββ decay modes.

RADIOACTIVITY ⁸²Br, ¹⁰⁰Tc, ¹⁵⁰Pm(β^-); calculated sum spectra of β and γ-ray energies for the intermediate nuclei in ββ decays of ⁸²Se, ¹⁰⁰Mo and ¹⁵⁰Nd.

doi: 10.1103/PhysRevC.95.055501
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2016FR06      Phys.Rev. C 94, 014614 (2016)

D.Frekers, M.Alanssari, T.Adachi, B.T.Cleveland, M.Dozono, H.Ejiri, S.R.Elliott, H.Fujita, Y.Fujita, M.Fujiwara, K.Hatanaka, M.Holl, D.Ishikawa, H.Matsubara, H.Okamura, P.Puppe, K.Suda, A.Tamii, J.Thies, H.P.Yoshida

High energy-resolution measurement of the ⁸²Se(³He, t)⁸²Br reaction for double-beta decay and for solar neutrinos

NUCLEAR REACTIONS ⁸²Se(³He, t), E=420 MeV; measured E(t), I(t), σ(θ) using Grand Raiden Spectrometer at RCNP-Osaka cyclotron facility. ⁸²Br; deduced levels, J, π, L-transfer, IAS, 1+ states, Gamow-Teller resonance (GTR), Gamow-Teller strengths B(GT). Distorted-wave (DW) calculations to analyze σ(θ) distributions. ⁸⁰Se; discussed implications for 2νββ and 0νββ decay modes, possible detector of solar neutrinos; calculated solar neutrino capture rates on ⁸²Se as a function of excitation energy in ⁸²Br from B(GT) values.

doi: 10.1103/PhysRevC.94.014614
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Data from this article have been entered in the EXFOR database. For more information, access X4 datasetE2520. Data from this article have been entered in the XUNDL database. For more information, click here.

2015GU01      Astropart.Phys. 64, 34 (2015)

V.E.Guiseppe, S.R.Elliott, N.E.Fields, D.Hixon

Fast-neutron activation of long-lived nuclides in natural Pb

NUCLEAR REACTIONS Pb(n, x)²⁰⁷Bi/²⁰²Pb/¹⁹⁴Hg, E<250 MeV; measured reaction products, Eγ, Iγ; deduced production rates, σ. Comparison with TALYS calculations.

doi: 10.1016/j.astropartphys.2014.11.002
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2014EJ02      Phys.Rev. C 89, 055501 (2014)

H.Ejiri, S.R.Elliott

Charged current neutrino cross section for solar neutrinos, and background to ββ^- experiments

NUCLEAR REACTIONS ⁷⁶Ge, ¹⁰⁰Mo, ¹³⁰Te, ¹³⁶Xe(ν, e^-), E=solar neutrinos; calculated capture rates for charge-current (CC) interactions for ββ emitters; estimated contribution to background in double-beta decay and dark matter experiments from β^- decays of ⁷⁶As, ¹³⁰I and ¹³⁶Cs produced in neutrino capture.

doi: 10.1103/PhysRevC.89.055501
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2013BO14      Phys.Rev. C 87, 064607 (2013)

M.S.Boswell, S.R.Elliott, D.V.Perepelitsa, M.Devlin, N.Fotiades, R.O.Nelson, T.Kawano, V.E.Guiseppe

Neutron inelastic scattering in natural Cu as a background in neutrinoless double-β decay experiments

NUCLEAR REACTIONS ^63,65Cu(n, n'), (n, 2n), E=0.2-800 MeV; measured Eγ, Iγ for 119 γ rays, γ-ray production σ(E) and level σ(E) by activation technique using GEANIE spectrometer at LANSC facility. Natural Cu target. GEANT4 simulations of γ-ray spectra and total σ(E) and compared with experimental data for benchmarking of background events in double β decay experiments. Comparison with statistical model calculations and with evaluated data library ENDF/B-VII. Estimated γ-ray production σ of 16 γ rays in Cu isotopes for E(n)=2.897-4.196 MeV which are potential background lines in 0νββ decay experiments for ⁴⁸Ca, ⁷⁶Ge, ⁸⁴Se, ⁹⁶Zr, ¹⁰⁰Mo, ¹¹⁶Cd, ¹³⁰Te and ¹⁵⁰Nd isotopes.

doi: 10.1103/PhysRevC.87.064607
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset14370.

2012EL04      J.Phys.:Conf.Ser. 381, 012003 (2012)

S.R.Elliott

Double Beta Decay

doi: 10.1088/1742-6596/381/1/012003
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2012MA23      Phys.Rev. C 85, 064614 (2012)

S.MacMullin, M.Boswell, M.Devlin, S.R.Elliott, N.Fotiades, V.E.Guiseppe, R.Henning, T.Kawano, B.H.LaRoque, R.O.Nelson, J.M.O'Donnell

Partial γ-ray production cross sections for (n, xnγ) reactions in natural argon at 1-30 MeV

NUCLEAR REACTIONS Ar(n, xnγ)³⁹Ar/⁴⁰Ar, E=1-30 MeV; measured Eγ, Iγ, E(n), time-of-flight, partial γ-ray σ(E) for six excited states in ⁴⁰Ar and two excited states in ³⁹Ar, elastic and inelastic neutron scattering cross sections. GEANIE array at LANSCE facility. Comparison with calculations using TALYS and CoH₃ reaction codes. Relevance to identification of potential backgrounds in neutrinoless double-β decay, dark matter and WIMP experiments.

doi: 10.1103/PhysRevC.85.064614
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset14341.

2012MA59      Phys.Rev. C 86, 067601 (2012)

S.MacMullin, M.Boswell, M.Devlin, S.R.Elliott, N.Fotiades, V.E.Guiseppe, R.Henning, T.Kawano, B.H.LaRoque, R.O.Nelson, J.M.O'Donnell

Neutron-induced γ-ray production cross sections for the first excited-state transitions in ²⁰Ne and ²²Ne

NUCLEAR REACTIONS ^20,22Ne(n, n), (n, n'), E=1-100 MeV; measured Eγ, Iγ using GEANIE array at LANSCE facility; deduced σ for population of first 2+ and 4+ states in ^20,22Ne, σ for elastic to γ-ray production channel. Comparison with TALYS and CoH₃ calculations.

doi: 10.1103/PhysRevC.86.067601
Citations: PlumX Metrics
Data from this article have been entered in the EXFOR database. For more information, access X4 dataset14352.

2010EL09      Phys.Rev. C 82, 054610 (2010)

S.R.Elliott, V.E.Guiseppe, B.H.LaRoque, R.A.Johnson, S.G.Mashnik

Fast-neutron activation of long-lived isotopes in enriched Ge

NUCLEAR REACTIONS ⁷⁶Ge(n, X)⁵⁴Mn/⁵⁷Co/⁶⁰Co/⁶⁵Zn/⁶⁸Ge, E=0-700 MeV; measured Eγ, Iγ, production rates, pulsed neutron beam. ^{70,72,73,74,76}Ge(n, X)⁵⁴Mn/⁵⁷Co/⁶⁰Co/⁶⁵Zn/⁶⁸Ge, E=10-2000 MeV; calculated production σ. Comparison with cross section calculations based on based on CEM03.02. Predicted cosmogenic production rates of ⁵⁴Mn, ^57,60Co, ⁶⁵Zn and ⁶⁸Ge isotopes. Relevance to background radiation in Ge detectors used in double-beta decay experiments.

doi: 10.1103/PhysRevC.82.054610
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2010YI03      Nucl.Phys. A834, 823c (2010)

Z.-B.Yin, D.-M.Mei, S.R.Elliott

Studies on cosmogenic production as a background for rare physics processes

doi: 10.1016/j.nuclphysa.2010.01.157
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2009GU12      Phys.Rev. C 79, 054604 (2009)

V.E.Guiseppe, M.Devlin, S.R.Elliott, N.Fotiades, A.Hime, D.-M.Mei, R.O.Nelson, D.V.Perepelitsa

Neutron inelastic scattering and reactions in natural Pb as a background in neutrinoless double-β-decay experiments

NUCLEAR REACTIONS Pb(n, xn), E=2.87-200 MeV; measured Eγ, Iγ, σ. Estimated contribution from background radiation produced in Pb(n, xn) reactions in experiments to detect neutrinoless double-β decay of ⁷⁶Ge, ⁸²Se, ¹⁰⁰Mo, ¹³⁰Te, ¹³⁶Xe and ¹⁵⁰Nd

doi: 10.1103/PhysRevC.79.054604
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Data from this article have been entered in the EXFOR database. For more information, access X4 dataset14231.

2008AV01      Rev.Mod.Phys. 80, 481 (2008)

F.T.Avignone III, S.R.Elliott, J.Engel

Double beta decay, Majorana neutrinos, and neutrino mass

doi: 10.1103/RevModPhys.80.481
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2008ME06      Phys.Rev. C 77, 054614 (2008)

D.-M.Mei, S.R.Elliott, A.Hime, V.Gehman, K.Kazkaz

Neutron inelastic scattering processes as a background for double-β decay experiments

NUCLEAR REACTIONS Pb, Ge(n, n'γ), E=thermal; measured Eγ, Iγ, σ for assessment of impurities in neutrinoless double β decay.

RADIOACTIVITY ⁷⁶Ge(2β); measured Eγ, Iγ, assignment of γ rays to different impurities.

doi: 10.1103/PhysRevC.77.054614
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2007GE03      J.Phys.(London) G34, 667 (2007); Corrigendum J.Phys.(London) G35, 029701 (2008)

V.M.Gehman, S.R.Elliott

Multiple-isotope comparison for determining 0νββ mechanisms

RADIOACTIVITY ⁴⁸Ca, ⁷⁶Ge, ⁸²Se, ⁹⁶Zr, ¹⁰⁰Mo, ¹¹⁶Cd, ^128,130Te, ¹³⁶Xe, ¹⁵⁰Nd(2β^-); analyzed data; deduced matrix elements for 0νββ-decay, experimental requirements for determining mechanism.

doi: 10.1088/0954-3899/34/4/006
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2006AB11      Phys.Rev. C 73, 045805 (2006)

J.N.Abdurashitov, V.N.Gavrin, S.V.Girin, V.V.Gorbachev, P.P.Gurkina, T.V.Ibragimova, A.V.Kalikhov, N.G.Khairnasov, T.V.Knodel, V.A.Matveev, I.N.Mirmov, A.A.Shikhin, E.P.Veretenkin, V.M.Vermul, V.E.Yants, G.T.Zatsepin, T.J.Bowles, S.R.Elliott, W.A.Teasdale, B.T.Cleveland, W.C.Haxton, J.F.Wilkerson, J.S.Nico, A.Suzuki, K.Lande, Yu.S.Khomyakov, V.M.Poplavsky, V.V.Popov, O.V.Mishin, A.N.Petrov, B.A.Vasiliev, S.A.Voronov, A.I.Karpenko, V.V.Maltsev, N.N.Oshkanov, A.M.Tuchkov, V.I.Barsanov, A.A.Janelidze, A.V.Korenkova, N.A.Kotelnikov, S.Yu.Markov, V.V.Selin, Z.N.Shakirov, A.A.Zamyatina, S.B.Zlokazov

Measurement of the response of a Ga solar neutrino experiment to neutrinos from a ³⁷Ar source

NUCLEAR REACTIONS ⁷¹Ga(ν, e), E=spectrum; measured production rate using ³⁷Ar neutrino source. Comparison with model predictions, implications for solar neutrino experiment discussed.

doi: 10.1103/PhysRevC.73.045805
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2006AB17      Astropart.Phys. 25, 349 (2006)

J.N.Abdurashitov, T.J.Bowles, C.Cattadori, B.T.Cleveland, S.R.Elliott, N.Ferrari, V.N.Gavrin, S.V.Girin, V.V.Gorbachev, P.P.Gurkina, W.Hampel, T.V.Ibragimova, F.Kaether, A.V.Kalikhov, N.G.Khairnasov, T.V.Knodel, I.N.Mirmov, L.Pandola, H.Richter, A.A.Shikhin, W.A.Teasdale, E.P.Veretenkin, V.M.Vermul, J.F.Wilkerson, V.E.Yants, G.T.Zatsepin

The BNO-LNGS joint measurement of the solar neutrino capture rate in ⁷¹Ga

NUCLEAR REACTIONS ⁷¹Ga(ν, e), E=spectrum; measured solar neutrino capture rate.

doi: 10.1016/j.astropartphys.2006.03.008
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2006EL01      Nucl.Instrum.Methods Phys.Res. A558, 504 (2006)

S.R.Elliott, V.M.Gehman, K.Kazkaz, D.-M.Mei, A.R.Young

Pulse shape analysis in segmented detectors as a technique for background reduction in Ge double-beta decay experiments

doi: 10.1016/j.nima.2005.12.024
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2006GA38      Phys.Atomic Nuclei 69, 1820 (2006)

V.N.Gavrin, J.N.Abdurashitov, V.I.Barsanov, T.J.Bowles, B.T.Cleveland, S.R.Elliott, S.V.Girin, V.V.Gorbachev, P.P.Gurkina, W.C.Haxton, T.V.Ibragimova, A.A.Janelidze, A.V.Kalikhov, N.A.Kotelnikov, K.Lande, V.V.Maltsev, S.Yu.Markov, V.A.Matveev, I.N.Mirmov, O.V.Mishin, J.S.Nico, N.N.Oshkanov, A.N.Petrov, V.M.Poplavsky, V.V.Popov, V.V.Selin, Z.N.Shakirov, A.A.Shikhin, A.Suzuki, W.A.Teasdale, A.M.Tuchkov, B.A.Vasiliev, E.P.Veretenkin, V.M.Vermul, S.A.Voronov, J.F.Wilkerson, V.E.Yants, A.A.Zamyatina, G.T.Zatsepin, S.B.Zlokazov

Measurement of the Response of a Ga Solar Neutrino Experiment to ³⁷Ar Source

NUCLEAR REACTIONS ⁷¹Ga(ν, e), E=spectrum; measured production rate using ³⁷Ar neutrino source. Comparison with model predictions, implications for solar neutrino experiment discussed.

doi: 10.1134/S1063778806110032
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2005EL01      Nucl.Phys. B(Proc.Supp.) S138, 275 (2005)

S.R.Elliott

Neutrino mass patterns and future double-beta decay experiments

doi: 10.1016/j.nuclphysbps.2004.11.063
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2005NO02      Nucl.Phys. B(Proc.Supp.) S138, 221 (2005)

M.Nomachi, P.Doe, H.Ejiri, S.R.Elliott, J.Engel, M.Finger, J.A.Formaggio, K.Fushimi, V.Gehman, A.Gorin, M.Greenfield, R.Hazama, K.Ichihara, Y.Ikegami, H.Ishii, T.Itahashi, P.Kavitov, V.Kekelidze, K.Kuroda, V.Kutsalo, I.Manouilov, K.Matsuoka, H.Nakamura, T.Ogama, A.Para, K.Rielage, A.Rjazantsev, R.G.H.Robertson, Y.Shichijo, T.Shima, Y.Shimada, G.Shirkov, A.Sissakian, Y.Sugaya, A.Titov, V.Vatulin, O.E.Vilches, V.Voronov, J.F.Wilkerson, D.I.Will, S.Yoshida

MOON (Mo Observatory Of Neutrinos) for double beta decay

doi: 10.1016/j.nuclphysbps.2004.11.053
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2004EL07      J.Phys.(London) G30, R183 (2004)

S.R.Elliott, J.Engel

Double-beta decay

doi: 10.1088/0954-3899/30/9/R01
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2003DO13      Nucl.Phys. A721, 517c (2003)

P.Doe, H.Ejiri, S.R.Elliott, J.Engel, M.Finger, K.Fushimi, V.Gehman, A.Gorine, M.Greenfield, R.Hazama, K.Ichihara, T.Itahashi, P.Kavitov, V.Kekelidze, K.Kuroda, V.Kutsalo, K.Matsuoka, I.Manouilov, M.Nomachi, A.Para, A.Rjazantsev, R.G.H.Robertson, Y.Shichijo, L.C.Stonehill, T.Shima, G.Shirkov, A.Sissakian, Y.Sugaya, A.Titov, V.Vatulin, V.Voronov, O.E.Vilches, J.F.Wilkerson, D.I.Will, S.Yoshida

Neutrino Studies in ¹⁰⁰Mo and MOON - Mo Observatory of Neutrinos -

doi: 10.1016/S0375-9474(03)01113-8
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2003EL06      Nucl.Phys. B(Proc.Supp.) S118, 489 (2003)

S.R.Elliott, for the Majorana Collaboration

The Majorana Double-Beta Decay Experimental Project

doi: 10.1016/S0920-5632(03)01381-1
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2002EL15      Ann.Rev.Nucl.Part.Sci. 52, 115 (2002)

S.R.Elliott, P.Vogel

Double Beta Decay

doi: 10.1146/annurev.nucl.52.050102.090641
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2000EL13      Phys.Rev. C62, 065802 (2000)

S.R.Elliott

Measuring Supernova Neutrino Temperatures using Lead Perchlorate

doi: 10.1103/PhysRevC.62.065802
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1999AB14      Phys.Rev. C59, 2246 (1999)

J.N.Abdurashitov, V.N.Gavrin, S.V.Girin, V.V.Gorbachev, T.V.Ibragimova, A.V.Kalikhov, N.G.Khairnasov, T.V.Knodel, V.N.Kornoukhov, I.N.Mirmov, A.A.Shikhin, E.P.Veretenkin, V.M.Vermul, V.E.Yants, G.T.Zatsepin, Yu.S.Khomyakov, A.V.Zvonarev, T.J.Bowles, J.S.Nico, W.A.Teasdale, D.L.Wark, M.L.Cherry, V.N.Karaulov, V.L.Levitin, V.I.Maev, P.I.Nazarenko, V.S.Shkolnik, N.V.Skorikov, B.T.Cleveland, T.Daily, R.Davis, Jr., K.Lande, C.K.Lee, P.S.Wildenhain, S.R.Elliott, J.F.Wilkerson, and the SAGE Collaboration

Measurement of the Response of a Gallium Metal Solar Neutrino Experiment to Neutrinos from a ⁵¹Cr Source

NUCLEAR REACTIONS ⁷¹Ga(ν, e), E=spectrum; measured σ. Neutrinos from ⁵¹Cr EC decay. Comparisons with theory.

doi: 10.1103/PhysRevC.59.2246
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1999AB43      Phys.Rev. C60, 055801 (1999)

J.N.Abdurashitov, V.N.Gavrin, S.V.Girin, V.V.Gorbachev, T.V.Ibragimova, A.V.Kalikhov, N.G.Khairnasov, T.V.Knodel, I.N.Mirmov, A.A.Shikhin, E.P.Veretenkin, V.M.Vermul, V.E.Yants, G.T.Zatsepin, T.J.Bowles, W.A.Teasdale, D.L.Wark, M.L.Cherry, J.S.Nico, B.T.Cleveland, R.Davis, Jr., K.Lande, P.S.Wildenhain, S.R.Elliott, J.F.Wilkerson, and the SAGE Collaboration

Measurement of the Solar Neutrino Capture Rate with Gallium Metal

NUCLEAR REACTIONS ⁷¹Ga(ν, e), E=solar; measured capture rate; deduced energy integrated neutrino flux.

doi: 10.1103/PhysRevC.60.055801
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1998AD12      Rev.Mod.Phys. 70, 1265 (1998)

E.G.Adelberger, S.M.Austin, J.B.Bahcall, A.B.Balantekin, G.Bogaert, L.S.Brown, L.Buchmann, F.E.Cecil, A.E.Champagne, L.de Braeckeleer, C.A.Duba, S.R.Elliott, S.J.Freedom, M.Gai, G.Goldring, C.R.Gould, A.Gruzinov, W.C.Haxton, K.M.Heeger, E.Henley, C.W.Johnson, M.Kamionkowski, R.W.Kavanagh, S.E.Koonin, K.Kubodera, K.Langanke, T.Motobayashi, V.Pandharipande, P.Parker, R.G.H.Robertson, C.Rolfs, R.F.Sawyer, N.Shaviv, T.D.Shoppa, K.A.Snover, E.Swanson, R.E.Tribble, S.Turck-Chieze, J.F.Wilkerson

Solar Fusion Cross Sections

NUCLEAR REACTIONS ⁷Be, ^12,13C, ¹⁵N, ^16,17,18O(p, γ), ^14,15N, ^17,18O(p, α), ⁷Li(d, p), ³He(p, e⁺), (α, γ), (³He, 2p), ¹H(p, e⁺), E=low; compiled, analyzed S-factor data, calculations; deduced implications for solar neutrino flux calculations.

doi: 10.1103/RevModPhys.70.1265
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1998EL02      Phys.Rev. C57, 583 (1998)

S.R.Elliott, P.Beiersdorfer, M.H.Chen, V.Decaux, D.A.Knapp

Measurements of the Differences in the Nuclear Charge Radii Among Uranium Isotopes

NUCLEAR MOMENTS ^233,235U; measured isotope shifts; deduced relative nuclear charge radii. X-ray spectroscopy, high-energy electron beam ion trap, highly-charged ions. Results for other uranium isotopes compared.

doi: 10.1103/PhysRevC.57.583
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1997BE64      Nucl.Phys. A626, 357c (1997)

P.Beiersdorfer, S.R.Elliott, J.C.Lopez-Urrutia, K.Widmann

Measurements of Nuclear Parameters of High-Z Isotopes Performed on a High-Energy Electron Beam Ion Trap

NUCLEAR MOMENTS ¹⁶⁵Ho; measured hfs; deduced magnetic moment. ^233,235U; measured charge radii. Highly charged ions, electron beam ion trap.

doi: 10.1016/S0375-9474(97)00558-7
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1996AB39      Nucl.Phys. B(Proc.Suppl.) S48, 299 (1996)

J.N.Abdurashitov, V.N.Gavrin, S.V.Girin, V.V.Gorbatchev, A.O.Gusev, A.V.Kalikhov, T.N.Knodel, I.N.Mirmov, A.M.Pshukov, A.M.Shalagin, A.A.Shikhin, E.P.Veretenkin, V.M.Vermul, V.Yants, G.T.Zatsepin, T.J.Bowles, J.S.Nico, W.A.Teasdale, D.L.Wark, S.R.Elliott, J.F.Wilkerson, B.T.Cleveland, T.Daily, R.Davis, Jr., K.Lande, C.K.Lee, P.W.Wildenhain, M.L.Cherry

Results from SAGE

doi: 10.1016/0920-5632(96)00264-2
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1996EL03      Phys.Rev.Lett. 76, 1031 (1996); Erratum Phys.Rev.Lett. 77, 4278 (1996)

S.R.Elliott, P.Beiersdorfer, M.H.Chen

Trapped-Ion Technique for Measuring the Nuclear Charge Radii of Highly Charged Radioactive Isotopes

NUCLEAR MOMENTS ^233,238U; measured charge radii. Crystal spectrometer, X-ray spectra analysis.

doi: 10.1103/PhysRevLett.76.1031
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1996EL13      Nucl.Phys. B(Proc.Suppl.) S48, 370 (1996)

S.R.Elliott, J.N.Abdurashitov, T.J.Bowles, M.L.Cherry, B.T.Cleveland, T.Daily, R.Davis, Jr., V.N.Gavrin, S.V.Girin, V.V.Gorbatchev, A.O.Gusev, A.V.Kalikhov, N.G.Khairnasov, V.N.Karaulov, T.V.Knodel, V.N.Kornoukhov, Yu.S.Khomyakov, K.Lande, C.K.Lee, V.L.Levitin, V.I.Maev, I.N.Mirmov, P.I.Nazarenko, J.S.Nico, A.M.Pshukov, A.M.Shalagin, A.A.Shikhin, V.S.Shkolnik, N.V.Skorikov, W.A.Teasdale, E.P.Veretenkin, V.M.Vermul, D.L.Wark, P.W.Wildenhain, J.F.Wilkerson, V.Yants, G.T.Zatsepin, A.V.Zvonarev

Preliminary Results from the Russian-American Gallium Experiment Cr-Neutrino Source Measurement

doi: 10.1016/0920-5632(96)00274-5
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1995EL21      Nucl.Instrum.Methods Phys.Res. B100, 529 (1995)

S.R.Elliott, R.E.Marrs

A Wire Probe as an Ion Source for an Electron Beam Ion Trap

doi: 10.1016/0168-583X(95)00327-4
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1992EL07      Phys.Rev. C46, 1535 (1992)

S.R.Elliott, A.A.Hahn, M.K.Moe, M.A.Nelson, M.A.Vient

Double Beta Decay of ⁸²Se

RADIOACTIVITY ⁸²Se(2β); measured 2ν-accompanied 2β-decay T_1/2, 0ν-accompanied 2β-decay T_1/2 limit. Time projection chamber experiment.

doi: 10.1103/PhysRevC.46.1535
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1991AB14      Phys.Rev.Lett. 67, 3332 (1991)

A.I.Abazov, O.L.Anosov, E.L.Faizov, V.N.Gavrin, A.V.Kalikhov, T.V.Knodel, I.I.Knyshenko, V.N.Kornoukhov, S.A.Mezentseva, I.N.Mirmov, A.V.Ostrinsky, A.M.Pshukov, N.E.Revzin, A.A.Shikhin, P.V.Timofeyev, E.P.Veretenkin, V.M.Vermul, G.T.Zatsepin, T.J.Bowles, B.T.Cleveland, S.R.Elliott, H.A.O'Brien, D.L.Wark, J.F.Wilkerson, R.Davis, Jr., K.Lande, M.L.Cherry, R.T.Kouzes

Search for Neutrinos from the Sun using the Reaction ⁷¹Ga(ν(e), e^-)⁷¹Ge

doi: 10.1103/PhysRevLett.67.3332
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1991EL04      J.Phys.(London) G17, S145 (1991)

S.R.Elliott, M.K.Moe, M.A.Nelson, M.A.Vient

The Double Beta Decay Spectrum of ¹⁰⁰Mo as Measured with a TPC

RADIOACTIVITY ¹⁰⁰Mo(2β); measured 2ν-accompanied double β-decay T_1/2. Time projection chamber.

doi: 10.1088/0954-3899/17/S/015
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1988EL07      Nucl.Instrum.Methods Phys.Res. A273, 226 (1988)

S.R.Elliott, A.A.Hahn, M.K.Moe

A Time Projection Chamber for Detection of Double Beta Decay

RADIOACTIVITY ⁸²Se(2β); measured possible electron pair tracks. Time projection chamber.

doi: 10.1016/0168-9002(88)90818-2
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1987EL10      Phys.Rev.Lett. 59, 1649 (1987)

S.R.Elliott, A.A.Hahn, M.K.Moe

Limit on Neutrinoless Double-Beta Decay with Majoron Emission in ⁸²Se

RADIOACTIVITY ⁸²Se(2β^-); measured sum-energy spectrum; deduced neutrinoless double beta-decay T_1/2 limit.

doi: 10.1103/PhysRevLett.59.1649
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1987EL11      Phys.Rev.Lett. 59, 2020 (1987)

S.R.Elliott, A.A.Hahn, M.K.Moe

Direct Evidence for Two-Neutrino Double-Beta Decay in ⁸²Se

RADIOACTIVITY ⁸²Se(2β^-); measured two-electron event sum energy spectrum; deduced T_1/2.

doi: 10.1103/PhysRevLett.59.2020
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1987EL13      Phys.Rev. C36, 2129 (1987)

S.R.Elliott, A.A.Hahn, M.K.Moe

Search for Double Beta Decay in ¹⁰⁰Mo and ⁹²Mo

RADIOACTIVITY ^100,92Mo(2β); measured T_1/2 limits for different double beta decay modes.

doi: 10.1103/PhysRevC.36.2129
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1986EL01      Phys.Rev.Lett. 56, 2582 (1986)

S.R.Elliott, A.A.Hahn, M.K.Moe

Experimental Investigation of Double-Beta Decay in ⁸²Se

RADIOACTIVITY ⁸²Se(2β); measured zero-, two-neutrino double β-decay T_1/2 lower limits. Time projection chamber.

doi: 10.1103/PhysRevLett.56.2582
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