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Orientation-dependent hyperfine structure of polar molecules in a rare-gas matrix: a scheme for measuring the electron electric dipole moment

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arxiv 1806.06774 v1 pith:E4DWKRIY submitted 2018-06-18 physics.atom-ph

Orientation-dependent hyperfine structure of polar molecules in a rare-gas matrix: a scheme for measuring the electron electric dipole moment

classification physics.atom-ph
keywords moleculesrare-gasstructureelectrichyperfinedifferentdipoleelectron
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Because molecules can have their orientation locked when embedded into a solid rare-gas matrix, their hyperfine structure is strongly perturbed relative to the freely rotating molecule. The addition of an electric field further perturbs the structure, and fields parallel and antiparallel to the molecular orientation result in different shifts of the hyperfine structure. These shifts enable the selective detection of molecules with different orientations relative to the axes of a rare-gas crystal, which will be an important ingredient of an improved electron electric dipole moment measurement using large ensembles of polar molecules trapped in rare-gas matrices.

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Cited by 4 Pith papers

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