Zeeman-tuned rotational level-crossing spectroscopy in a diatomic free radical

S. B. Cahn; J. Ammon; E. Kirilov; Y. V. Gurevich; D. Murphree; R. Paolino; D. A. Rahmlow; M. G. Kozlov; D. Demille

doi:10.1103/PhysRevLett.112.163002

Zeeman-tuned rotational level-crossing spectroscopy in a diatomic free radical

S. B. Cahn, J. Ammon, E. Kirilov, Y. V. Gurevich, D. Murphree, R. Paolino, D. A. Rahmlow, M. G. Kozlov, D. Demille

Digital Health Sciences

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30 Scopus citations

Abstract

Rotational levels of molecular free radicals can be tuned to degeneracy by using laboratory-scale magnetic fields. Because of their intrinsically narrow width, these level crossings of opposite-parity states have been proposed for use in the study of parity-violating interactions and other applications. We experimentally study a typical manifestation of this system using BaF138. Using a Stark-mixing method for detection, we demonstrate level-crossing signals with spectral width as small as 6 kHz. We use our data to verify the predicted line shapes, transition dipole moments, and Stark shifts and to precisely determine molecular magnetic g factors. Our results constitute an initial proof of concept for use of this system to study nuclear spin-dependent parity-violating effects.

Original language	English (US)
Article number	163002
Journal	Physical Review Letters
Volume	112
Issue number	16
DOIs	https://doi.org/10.1103/PhysRevLett.112.163002
State	Published - Apr 25 2014

ASJC Scopus subject areas

General Physics and Astronomy

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10.1103/PhysRevLett.112.163002

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abstract = "Rotational levels of molecular free radicals can be tuned to degeneracy by using laboratory-scale magnetic fields. Because of their intrinsically narrow width, these level crossings of opposite-parity states have been proposed for use in the study of parity-violating interactions and other applications. We experimentally study a typical manifestation of this system using BaF138. Using a Stark-mixing method for detection, we demonstrate level-crossing signals with spectral width as small as 6 kHz. We use our data to verify the predicted line shapes, transition dipole moments, and Stark shifts and to precisely determine molecular magnetic g factors. Our results constitute an initial proof of concept for use of this system to study nuclear spin-dependent parity-violating effects.",

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AU - Cahn, S. B.

AU - Ammon, J.

AU - Kirilov, E.

AU - Gurevich, Y. V.

AU - Murphree, D.

AU - Paolino, R.

AU - Rahmlow, D. A.

AU - Kozlov, M. G.

AU - Demille, D.

PY - 2014/4/25

Y1 - 2014/4/25

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AB - Rotational levels of molecular free radicals can be tuned to degeneracy by using laboratory-scale magnetic fields. Because of their intrinsically narrow width, these level crossings of opposite-parity states have been proposed for use in the study of parity-violating interactions and other applications. We experimentally study a typical manifestation of this system using BaF138. Using a Stark-mixing method for detection, we demonstrate level-crossing signals with spectral width as small as 6 kHz. We use our data to verify the predicted line shapes, transition dipole moments, and Stark shifts and to precisely determine molecular magnetic g factors. Our results constitute an initial proof of concept for use of this system to study nuclear spin-dependent parity-violating effects.

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Zeeman-tuned rotational level-crossing spectroscopy in a diatomic free radical

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