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NSR database version of April 27, 2024.

Search: Author = B.J.Mount

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2021AK04      Phys.Rev. C 104, 065501 (2021)

D.S.Akerib, A.K.Al Musalhi, S.K.Alsum, C.S.Amarasinghe, A.Ames, T.J.Anderson, N.Angelides, H.M.Araujo, J.E.Armstrong, M.Arthurs, X.Bai, J.Balajthy, S.Balashov, J.Bang, J.W.Bargemann, D.Bauer, A.Baxter, P.Beltrame, E.P.Bernard, A.Bernstein, A.Bhatti, A.Biekert, T.P.Biesiadzinski, H.J.Birch, G.M.Blockinger, E.Bodnia, B.Boxer, C.A.J.Brew, P.Bras, S.Burdin, J.K.Busenitz, M.Buuck, R.Cabrita, M.C.Carmona-Benitez, M.Cascella, C.Chan, N.I.Chott, A.Cole, M.V.Converse, A.Cottle, G.Cox, O.Creaner, J.E.Cutter, C.E.Dahl, L.de Viveiros, J.E.Y.Dobson, E.Druszkiewicz, S.R.Eriksen, A.Fan, S.Fayer, N.M.Fearon, S.Fiorucci, H.Flaecher, E.D.Fraser, T.Fruth, R.J.Gaitskell, J.Genovesi, C.Ghag, E.Gibson, S.Gokhale, M.G.D.van der Grinten, C.B.Gwilliam, C.R.Hall, S.J.Haselschwardt, S.A.Hertel, M.Horn, D.Q.Huang, M.C.I.gnarra, O.Jahangir, R.S.James, W.Ji, J.Johnson, A.C.Kaboth, A.C.Kamaha, K.Kamdin, K.Kazkaz, D.Khaitan, A.Khazov, I.Khurana, D.Kodroff, L.Korley, E.V.Korolkova, H.Kraus, S.Kravitz, L.Kreczko, B.Krikler, V.A.Kudryavtsev, E.A.Leason, J.Lee, D.S.Leonard, K.T.Lesko, C.Levy, J.Liao, J.Lin, A.Lindote, R.Linehan, W.H.Lippincott, X.Liu, M.I.Lopes, E.Lopez Asamar, B.Lopez Paredes, W.Lorenzon, S.Luitz, P.A.Majewski, A.Manalaysay, L.Manenti, R.L.Mannino, N.Marangou, M.E.McCarthy, D.N.McKinsey, J.McLaughlin, E.H.Miller, E.Mizrachi, A.Monte, M.E.Monzani, J.A.Morad, J.D.Morales Mendoza, E.Morrison, B.J.Mount, A.St.J.Murphy, D.Naim, A.Naylor, C.Nedlik, H.N.Nelson, F.Neves, J.A.Nikoleyczik, A.Nilima, I.Olcina, K.C.Oliver-Mallory, S.Pal, K.J.Palladino, J.Palmer, S.Patton, N.Parveen, E.K.Pease, B.Penning, G.Pereira, A.Piepke, Y.Qie, J.Reichenbacher, C.A.Rhyne, A.Richards, Q.Riffard, G.R.C.Rischbieter, R.Rosero, P.Rossiter, D.Santone, A.B.M.R.Sazzad, R.W.Schnee, P.R.Scovell, S.Shaw, T.A.Shutt, J.J.Silk, C.Silva, R.Smith, M.Solmaz, V.N.Solovov, P.Sorensen, J.Soria, I.Stancu, A.Stevens, K.Stifter, B.Suerfu, T.J.Sumner, N.Swanson, M.Szydagis, W.C.Taylor, R.Taylor, D.J.Temples, P.A.Terman, D.R.Tiedt, M.Timalsina, W.H.To, D.R.Tovey, M.Tripathi, D.R.Tronstad, W.Turner, U.Utku, A.Vaitkus, B.Wang, J.J.Wang, W.Wang, J.R.Watson, R.C.Webb, R.G.White, T.J.Whitis, M.Williams, F.L.H.Wolfs, D.Woodward, C.J.Wright, X.Xiang, J.Xu, M.Yeh, P.Zarzhitsky

Projected sensitivity of the LUX-ZEPLIN experiment to the two-neutrino and neutrinoless double β decays of ¹³⁴Xe

RADIOACTIVITY ¹³⁴Xe(2β^-); measured recoiling nuclei and electrons, decay energy spectra using LUX-ZEPLIN (LZ) detector of liquid xenon (LXe), with scintillation and electro-luminescence light detected using 494 photomultipliers at Sanford Underground Research Facility (SURF) in South Dakota; deduced lower limits of T_1/2 values for 2νββ and 0νββ decay modes.

doi: 10.1103/PhysRevC.104.065501
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2010MO03      Phys.Rev. C 81, 032501 (2010)

B.J.Mount, M.Redshaw, E.G.Myers

Double-β-decay Q values of ⁷⁴Se and ⁷⁶Ge

ATOMIC MASSES ^74,76Se, ^74,76Ge; measured cyclotron frequencies in a Penning-trap system relative to ⁸⁴Kr, atomic masses and systematic shifts for ion pairs. Comparisons with previous measurements and with AME-2003.

RADIOACTIVITY ⁷⁴Se(2EC), ⁷⁶Ge(2β^-); deduced Q values from measured masses. Discussed resonant enhancement for neutrinoless double-electron capture decay of ⁷⁴Se.

doi: 10.1103/PhysRevC.81.032501
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2010MO29      Phys.Rev. A 81, 064501 (2010)

B.J.Mount, H.S.P.Muller, M.Redshaw, E.G.Myers

Mass of ¹⁷O from Penning-trap mass spectrometry and molecular spectroscopy: A precision test of the Dunham-Watson model in carbon monoxide

ATOMIC MASSES ¹⁷O; measured average cyclotron frequency ratios; deduced mass. Florida State University precision Penning-trap mass spectrometer, Dunham-Watson model.

doi: 10.1103/PhysRevA.81.064501
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2010MO30      Phys.Rev. A 82, 042513 (2010)

B.J.Mount, M.Redshaw, E.G.Myers

Atomic masses of ⁶Li, ²³Na, ^{39, 41}K, ^{85, 87}Rb, and ¹³³Cs

ATOMIC MASSES ⁶Li, ²³Na, ^39,41K, ^85,87Rb, ¹³³Cs; measured cyclotron frequency ratios of pairs of ions simultaneously trapped in a Penning trap; deduced mass. Comparison with AME2003 and other experimental results.

doi: 10.1103/PhysRevA.82.042513
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2009MO23      Phys.Rev.Lett. 103, 122502 (2009)

B.J.Mount, M.Redshaw, E.G.Myers

Q Value of ¹¹⁵In → ¹¹⁵Sn(3/2⁺): The Lowest Known Energy β Decay

ATOMIC MASSES ¹¹⁵In, ¹¹⁵Sn; measured cyclotron frequency ratios with Penning Trap mass spectrometer; deduced atomic masses, ¹¹⁵In-¹¹⁵Sn Q-value.

doi: 10.1103/PhysRevLett.103.122502
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2009RE03      Phys.Rev. A 79, 012506 (2009)

M.Redshaw, B.J.Mount, E.G.Myers

Improved atomic masses of ^{84, 86}Kr and ^{129, 132}Xe

ATOMIC MASSES ^84,86Kr, ^129,132Xe; measured atomic masses using a cryogenic penning trap.

doi: 10.1103/PhysRevA.79.012506
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2009RE07      Phys.Rev.Lett. 102, 212502 (2009)

M.Redshaw, B.J.Mount, E.G.Myers, F.T.Avignone III

Masses of ¹³⁰Te and ¹³⁰Xe and Double-β-Decay Q Value of ¹³⁰Te

ATOMIC MASSES ¹³⁰Te, ¹³⁰Xe; Measured atomic masses using precision cryogenic Penning-trap spectrometer; Deduced Q-value for 2β-decay. Compared with energy calibration of CUORICINO and CUORE experiments.

doi: 10.1103/PhysRevLett.102.212502
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2009RE15      Phys.Rev. A 79, 012507 (2009)

M.Redshaw, B.J.Mount, E.G.Myers

Penning-trap measurement of the atomic masses of ¹⁸O and ¹⁹F with uncertainties < 0.1 parts per 10⁹

ATOMIC MASSES ¹⁸O, ¹⁹F; measured atomic masses using a cryogenic penning trap.

doi: 10.1103/PhysRevA.79.012507
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