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2020 Journal Article Erratum: Calculations of the atomic structure for the low-lying states of actinium [Phys. Rev. A 100 , 022504 (2019)]Dzuba, V. A., Flambaum, V. V. and Roberts, B. M. (2020). Erratum: Calculations of the atomic structure for the low-lying states of actinium [Phys. Rev. A 100 , 022504 (2019)]. Physical Review A, 101 (5) 059901. doi: 10.1103/physreva.101.059901 |
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2020 Journal Article Applying the matched-filter technique to the search for dark matter transients with networks of quantum sensorsPanelli, Guglielmo, Roberts, Benjamin M. and Derevianko, Andrei (2020). Applying the matched-filter technique to the search for dark matter transients with networks of quantum sensors. EPJ Quantum Technology, 7 (1) 5. doi: 10.1140/epjqt/s40507-020-00081-9 |
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2019 Journal Article Correlation trends in the hyperfine structure for Rb, Cs, and Fr, and high-accuracy predictions for hyperfine constantsGrunefeld, S. J., Roberts, B. M. and Ginges, J. S. M. (2019). Correlation trends in the hyperfine structure for Rb, Cs, and Fr, and high-accuracy predictions for hyperfine constants. Physical Review A, 100 (4) 042506, 042506. doi: 10.1103/physreva.100.042506 |
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2019 Journal Article Calculations of the atomic structure for the low-lying states of actiniumDzuba, V. A., Flambaum, V. V. and Roberts, B. M. (2019). Calculations of the atomic structure for the low-lying states of actinium. Physical Review A, 100 (2) 022504. doi: 10.1103/physreva.100.022504 |
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2018 Journal Article Search for transient ultralight dark matter signatures with networks of precision measurement devices using a Bayesian statistics methodRoberts, B. M., Blewitt, G., Dailey, C. and Derevianko, A. (2018). Search for transient ultralight dark matter signatures with networks of precision measurement devices using a Bayesian statistics method. Physical Review D, 97 (8) 083009. doi: 10.1103/physrevd.97.083009 |
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2017 Journal Article Comment on "Axion induced oscillating electric dipole moments"Flambaum, V. V., Roberts, B. M. and Stadnik, Y. V. (2017). Comment on "Axion induced oscillating electric dipole moments". Physical Review D, 95 (5) 058701. doi: 10.1103/PhysRevD.95.058701 |
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2016 Journal Article Comment on "Ionization of Atoms by Slow Heavy Particles, Including Dark Matter" ReplyRoberts, B. M., Flambaum, V. V. and Gribakin, G. F. (2016). Comment on "Ionization of Atoms by Slow Heavy Particles, Including Dark Matter" Reply. Physical Review Letters, 117 (8) 089302. doi: 10.1103/physrevlett.117.089302 |
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2016 Journal Article Dark matter scattering on electrons: Accurate calculations of atomic excitations and implications for the DAMA signalRoberts, B. M., Dzuba, V. A., Flambaum, V. V., Pospelov, M. and Stadnik, Y. V. (2016). Dark matter scattering on electrons: Accurate calculations of atomic excitations and implications for the DAMA signal. Physical Review D, 93 (11) 115037. doi: 10.1103/physrevd.93.115037 |
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2015 Journal Article Parity and Time-Reversal Violation in Atomic SystemsRoberts, B. M., Dzuba, V. A. and Flambaum, V. V. (2015). Parity and Time-Reversal Violation in Atomic Systems. Annual Review of Nuclear and Particle Science, Vol 65, 65 (1), 63-86. doi: 10.1146/annurev-nucl-102014-022331 |
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2014 Journal Article Parity-violating interactions of cosmic fields with atoms, molecules, and nuclei: Concepts and calculations for laboratory searches and extracting limitsRoberts, B. M., Stadnik, Y. V., Dzuba, V. A., Flambaum, V. V., Leefer, N. and Budker, D. (2014). Parity-violating interactions of cosmic fields with atoms, molecules, and nuclei: Concepts and calculations for laboratory searches and extracting limits. Physical Review D, 90 (9) 096005. doi: 10.1103/physrevd.90.096005 |
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2014 Journal Article Tests of CPT and Lorentz symmetry from muon anomalous magnetic dipole momentStadnik, Y. V., Roberts, B. M. and Flambaum, V. V. (2014). Tests of CPT and Lorentz symmetry from muon anomalous magnetic dipole moment. Physical Review D, 90 (4) 045035. doi: 10.1103/physrevd.90.045035 |
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2014 Journal Article Strongly enhanced atomic parity violation due to close levels of opposite parityRoberts, B. M., Dzuba, V. A. and Flambaum, V. V. (2014). Strongly enhanced atomic parity violation due to close levels of opposite parity. Physical Review A, 89 (4) 042509. doi: 10.1103/physreva.89.042509 |
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2014 Journal Article Nuclear-spin-dependent parity nonconservation in s-d5/2 and s-d3/2 transitionsRoberts, B. M., Dzuba, V. A. and Flambaum, V. V. (2014). Nuclear-spin-dependent parity nonconservation in s-d5/2 and s-d3/2 transitions. Physical Review A, 89 (1) 012502. doi: 10.1103/physreva.89.012502 |
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2013 Journal Article Double-core-polarization contribution to atomic parity-nonconservation and electric-dipole-moment calculationsRoberts, B. M., Dzuba, V. A. and Flambaum, V. V. (2013). Double-core-polarization contribution to atomic parity-nonconservation and electric-dipole-moment calculations. Physical Review A, 88 (4) 042507. doi: 10.1103/physreva.88.042507 |
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2013 Journal Article Parity nonconservation in Fr-like actinide and Cs-like rare-earth-metal ionsRoberts, B. M., Dzuba, V. A. and Flambaum, V. (2013). Parity nonconservation in Fr-like actinide and Cs-like rare-earth-metal ions. Physical Review A, 88 (1) 012510. doi: 10.1103/physreva.88.012510 |
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2013 Journal Article Quantum electrodynamics corrections to energies, transition amplitudes, and parity nonconservation in Rb, Cs, Ba+, Tl, Fr, and Ra+Roberts, B. M., Dzuba, V. A. and Flambaum, V. V. (2013). Quantum electrodynamics corrections to energies, transition amplitudes, and parity nonconservation in Rb, Cs, Ba+, Tl, Fr, and Ra+. Physical Review A, 87 (5) 054502. doi: 10.1103/physreva.87.054502 |
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2012 Journal Article Calculation of the parity-violating 5s-6s E1 amplitude in the rubidium atomDzuba, V. A., Flambaum, V. V. and Roberts, B. (2012). Calculation of the parity-violating 5s-6s E1 amplitude in the rubidium atom. Physical Review A, 86 (6) 062512. doi: 10.1103/physreva.86.062512 |
