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Sensitivity of Tunneling-Rotational Transitions in Ethylene Glycol to Variation of Electron-to-Proton Mass Ratio

Ethylene glycol in its ground conformation has tunneling transition with the frequency about 7 GHz. This leads to a rather complicated tunneling-rotational spectrum. Because tunneling and rotational energies have different dependence on the electron-to-proton mass ratio $μ$, this spectrum is highly sensitive to the possible $μ$ variation. We used simple 14 parameter effective Hamiltonian to calculate dimensionless sensitivity coefficients $Q_μ$ of the tunneling-rotational transitions and found that they lie in the range from $-17$ to $+18$. Ethylene glycol has been detected in the interstellar medium. All this makes it one of the most sensitive probes of $μ$ variation at the large space and time scales.

preprint2014arXivOpen access
A. V. ViatkinaM. G. Kozlov
astro-ph.COphysics.atom-ph
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A. V. ViatkinaM. G. Kozlov

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