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Constraining Dimension-Six Nonminimal Lorentz-Violating Electron--Nucleon Interactions with EDM Physics [CPT19]

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 Added by Jonas B. De Araujo
 Publication date 2019
  fields
and research's language is English




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Electric dipole moments of atoms can arise from P-odd and T-odd electron--nucleon couplings. This work studies a general class of dimension-six electron--nucleon interactions mediated by Lorentz-violating tensors of ranks ranging from $1$ to $4$. The possible couplings are listed as well as their behavior under C, P, and T, allowing us to select the couplings compatible with electric-dipole-moment physics. The unsuppressed contributions of these couplings to the atoms hamiltonian can be read as equivalent to an electric dipole moment. The Lorentz-violating coefficients magnitudes are limited using electric-dipole-moment measurements at the levels of $3.2times10^{-31}text{(eV)}^{-2}$ or $1.6times10^{-33}text{(eV)}^{-2}$.



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The electric dipole moment (EDM) of an atom could arise also from $P$-odd and $T$-odd electron-nucleon couplings. In this work we investigate a general class of dimension-$6$ electron-nucleon ($e$-$N$) nonminimal interactions mediated by Lorentz-violating (LV) tensors of rank ranging from $1$ to $4$. The possible couplings are listed as well as their behavior under $C$, $P$ and $T$, allowing us to select the couplings compatible with EDM physics. The unsuppressed contributions of these couplings to the atoms Hamiltonian can be read as EDM-equivalent. The LV coefficients magnitudes are limited using EDM experimental data to the level of $3.2times 10^{-13} text{(GeV)}^{-2}$ or $1.6times10^{-15} text{(GeV)}^{-2}$.
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