Nuclear structure of<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:mmultiscripts><mml:mi mathvariant="normal">Th</mml:mi><mml:mprescripts /><mml:none /><mml:mrow><mml:mn>229</mml:mn></mml:mrow></mml:mmultiscripts></mml:math>

Ruchowska, E.; Cederkäll, J.

doi:10.1103/physrevc.73.044326

Cited by 88 publications

(70 citation statements)

References 43 publications

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“…III) than b 29 , leading to a smaller shift of 0.2 eV and the currently accepted value of E is = 7.8 ± 0.5 eV. Interestingly, the same branching ratios can be obtained from the experimental data [46][47][48][49] for parameters of interband (see in Figure 1 Table III, where the probabilities of the inband transitions were calculated using the internal quadrupole moment Q 20 and the difference of the rotational and internal gyromagnetic ratio g R and g K , respectively (for the rotational band 5/2…”

Section: Energy Of the Nuclear Isomeric Levelsupporting

confidence: 67%

“…Such an experiment would ideally resolve the tension between the current results of Ref. [46][47][48][49]. This would allow accurate values of b 29 and b 42 to be calculated.…”

Section: Results Discussion and Request For Future Measurementsmentioning

confidence: 99%

“…III, the measurements of Refs. [46][47][48][49] can be used to bound the isomeric level half life. In this section we will use the radiation lifetime instead of half-life, which is traditionally used in atomic spectroscopy.…”

Section: Defining a Favored Area And Current Exclusionsmentioning

confidence: 99%

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Radiative lifetime and energy of the low-energy isomeric level inTh229

et al. 2015

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We estimate the range of the radiative lifetime and energy of the anomalous, low-energy 3/2 + (7.8± 0.5 eV) state in the 229 Th nucleus. Our phenomenological calculations are based on the available experimental data for the intensities of M 1 and E2 transitions between excited levels of the 229 Th nucleus in the K π [N nZ Λ] = 5/2 + [633] and 3/2 + [631] rotational bands. We also discuss the influence of certain branching coefficients, which affect the currently accepted measured energy of the isomeric state. From this work, we establish a favored region where the transition lifetime and energy should lie at roughly the 90% confidence level. We also suggest new nuclear physics measurements, which would significantly reduce the ambiguity in the present data.

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Section: Energy Of the Nuclear Isomeric Levelsupporting

confidence: 67%

“…Such an experiment would ideally resolve the tension between the current results of Ref. [46][47][48][49]. This would allow accurate values of b 29 and b 42 to be calculated.…”

Section: Results Discussion and Request For Future Measurementsmentioning

confidence: 99%

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Radiative lifetime and energy of the low-energy isomeric level inTh229

et al. 2015

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“…We should like to point out that the Nilsson orbit 5/2 + [633] that is usually used to classify the K π = 5/2 + ground state band [9,41,42] In Ref. [41,43] experimental data have been compared with structure calculations for 229 Th that use the quasiparticle-phonon model [44] employing a phenomenological Nilsson mean field and multipolemultipole residual interactions.…”

Section: Hartree-fock-bogoliubovmentioning

confidence: 99%

“…[41,43] experimental data have been compared with structure calculations for 229 Th that use the quasiparticle-phonon model [44] employing a phenomenological Nilsson mean field and multipolemultipole residual interactions. A very good description of the 229 Th level structure has been achieved by an appropriate fit of the interaction parameters.…”

Section: Hartree-fock-bogoliubovmentioning

confidence: 99%

Nuclear structure of lowestTh229states and time-dependent fundamental constants

et al. 2009

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The electromagnetic transition between the almost degenerate 5/2 + and 3/2 + states in 229 Th is deemed to be very sensitive to potential changes in the fine structure constant α. State of the art Hartree-Fock and Hartree-Fock-Bogoliubov calculations are performed to compute the difference in Coulomb energies of the two states which determines the amplification of variations in α into variations of the transition frequency. The kinetic energies are also calculated which reflect a possible variation in the nucleon or quark masses. A generalized Hellmann-Feynman theorem is proved including the use of density-matrix functionals. As the two states differ mainly in the orbit occupied by the last unpaired neutron the Coulomb energy difference results from a change in the nuclear polarization of the proton distribution. This effect turns out to be rather small and to depend on the nuclear model, the amplification varies between about −4 × 10 4 and +4 × 10 4 . Therefore much more effort must be put into the improvement of the nuclear models before one can draw conclusions from a measured drift in the transition frequency on a temporal drift of fundamental constants. All calculations published so far do not reach the necessary fidelity.

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The History of $$^{229\mathrm {m}}$$ 229 m Th

Wense

2017

Springer Theses

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Nuclear structure ofTh229

Cited by 88 publications

References 43 publications

Radiative lifetime and energy of the low-energy isomeric level inTh229

Radiative lifetime and energy of the low-energy isomeric level inTh229

Nuclear structure of lowestTh229states and time-dependent fundamental constants

The History of $$^{229\mathrm {m}}$$ 229 m Th

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