Time-dependent quark masses and big bang nucleosynthesis revisited

Myung Ki Cheoun; Toshitaka Kajino; Motohiko Kusakabe; Grant J. Mathews

doi:10.1103/PhysRevD.84.043001

Time-dependent quark masses and big bang nucleosynthesis revisited

Myung Ki Cheoun^*
, Toshitaka Kajino
, Motohiko Kusakabe
, Grant J. Mathews

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

We reinvestigate the constraints from primordial nucleosynthesis on a possible time-dependent quark mass. The limits on such quark-mass variations are particularly sensitive to the adopted observational abundance constraints. Hence, in the present study we have considered updated light-element abundances and uncertainties deduced from observations. We also consider new nuclear reaction rates and an independent analysis of the influence of such quark-mass variations on the resonance properties of the important He3(d,p)He4 reaction. We find that the updated abundance and resonance constraints imply a narrower range on the possible quark-mass variations in the early universe. We also find that, contrary to previous investigations, the optimum concordance region reduces to a (95% C.L.) value of -0.005 δm_q/m_q 0.007 consistent with no variation in the averaged quark mass.

Original language	English
Article number	043001
Journal	Physical Review D - Particles, Fields, Gravitation and Cosmology
Volume	84
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevD.84.043001
State	Published - 8 Aug 2011
Externally published	Yes

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title = "Time-dependent quark masses and big bang nucleosynthesis revisited",

abstract = "We reinvestigate the constraints from primordial nucleosynthesis on a possible time-dependent quark mass. The limits on such quark-mass variations are particularly sensitive to the adopted observational abundance constraints. Hence, in the present study we have considered updated light-element abundances and uncertainties deduced from observations. We also consider new nuclear reaction rates and an independent analysis of the influence of such quark-mass variations on the resonance properties of the important He3(d,p)He4 reaction. We find that the updated abundance and resonance constraints imply a narrower range on the possible quark-mass variations in the early universe. We also find that, contrary to previous investigations, the optimum concordance region reduces to a (95\% C.L.) value of -0.005 δmq/mq 0.007 consistent with no variation in the averaged quark mass.",

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AU - Cheoun, Myung Ki

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AU - Kusakabe, Motohiko

AU - Mathews, Grant J.

PY - 2011/8/8

Y1 - 2011/8/8

N2 - We reinvestigate the constraints from primordial nucleosynthesis on a possible time-dependent quark mass. The limits on such quark-mass variations are particularly sensitive to the adopted observational abundance constraints. Hence, in the present study we have considered updated light-element abundances and uncertainties deduced from observations. We also consider new nuclear reaction rates and an independent analysis of the influence of such quark-mass variations on the resonance properties of the important He3(d,p)He4 reaction. We find that the updated abundance and resonance constraints imply a narrower range on the possible quark-mass variations in the early universe. We also find that, contrary to previous investigations, the optimum concordance region reduces to a (95% C.L.) value of -0.005 δmq/mq 0.007 consistent with no variation in the averaged quark mass.

AB - We reinvestigate the constraints from primordial nucleosynthesis on a possible time-dependent quark mass. The limits on such quark-mass variations are particularly sensitive to the adopted observational abundance constraints. Hence, in the present study we have considered updated light-element abundances and uncertainties deduced from observations. We also consider new nuclear reaction rates and an independent analysis of the influence of such quark-mass variations on the resonance properties of the important He3(d,p)He4 reaction. We find that the updated abundance and resonance constraints imply a narrower range on the possible quark-mass variations in the early universe. We also find that, contrary to previous investigations, the optimum concordance region reduces to a (95% C.L.) value of -0.005 δmq/mq 0.007 consistent with no variation in the averaged quark mass.

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Time-dependent quark masses and big bang nucleosynthesis revisited

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