Parity violation in atomic ytterbium: Experimental sensitivity and systematics

Tsigutkin, K.; Dounas-Frazer, Dimitri R.; Family, A.; Stalnaker, Jason; Yashchuk, Valeriy V.; Budker, Dmitry

doi:10.1103/physreva.81.032114

Cited by 36 publications

(81 citation statements)

References 20 publications

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“…Therefore, constraining the neutron skin thickness may be important for low-energy APV tests of the standard model. Conversely, one can measure APV for a range of isotopes to deduce neutron radii [14].…”

Section: Introductionmentioning

confidence: 99%

Constraints on the symmetry energy and neutron skins from experiments and theory

et al. 2012

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The symmetry energy contribution to the nuclear equation of state impacts various phenomena in nuclear astrophysics, nuclear structure, and nuclear reactions. Its determination is a key objective of contemporary nuclear physics, with consequences for the understanding of dense matter within neutron stars. We examine the results of laboratory experiments that have provided initial constraints on the nuclear symmetry energy and on its density dependence at and somewhat below normal nuclear matter density. Even though some of these constraints have been derived from properties of nuclei while others have been derived from the nuclear response to electroweak and hadronic probes, within experimental uncertainties-they are consistent with each other. We also examine the most frequently used theoretical models that predict the symmetry energy and its slope parameter. By comparing existing constraints on the symmetry pressure to theories, we demonstrate how contributions of three-body forces, which are essential ingredients in neutron matter models, can be determined.

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Section: Introductionmentioning

confidence: 99%

Constraints on the symmetry energy and neutron skins from experiments and theory

et al. 2012

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“…A future low-energy test of the standard model may involve the combination of a precise APV experiment along with PV electron scattering to constrain R n [28]. Alternatively, measuring APV for a range of isotopes could provide information on neutron densities [30].…”

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confidence: 99%

Measurement of the Neutron Radius ofPb208through Parity Violation in Electron Scattering

2012

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“…The following are examples and do not intend to cover all the developments in the field: The Bouchiat group in Paris worked on the highly forbidden 6s to 7s electric dipole transition in a cesium cell, but detected the occurrence of the transition using stimulated emission rather than fluorescence [25]. The Budker group in Berkeley has completed a first round of measurements in ytterbium [26][27][28][29], has proposed APNC measurements with twophoton transitions [30], and is pursuing dysprosium [31,32]. There is an on-going experiment in the Blinov and Fortson group in Seattle using a single barium ion [33][34][35].…”

Section: Introductionmentioning

confidence: 97%

Atomic parity non-conservation: the francium anapole project of the FrPNC collaboration at TRIUMF

et al. 2013

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We present a method for measuring the nuclear anapole in a string of francium isotopes. The anapole is a parity non-conserving electromagnetic moment that enables parity-forbidden transitions between ground state hyperfine levels of an 164 S. Aubin and FrPNC collaboration atom. The experiment is run by the FrPNC collaboration and relies on a beam of artificially-produced francium from the ISAC facility at TRIUMF.

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Parity violation in atomic ytterbium: Experimental sensitivity and systematics

Cited by 36 publications

References 20 publications

Constraints on the symmetry energy and neutron skins from experiments and theory

Constraints on the symmetry energy and neutron skins from experiments and theory

Measurement of the Neutron Radius ofPb208through Parity Violation in Electron Scattering

Atomic parity non-conservation: the francium anapole project of the FrPNC collaboration at TRIUMF

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