An accurate vector optically pumped magnetometer with microwave-driven Rabi frequency measurements
Robust calibration of vector optically pumped magnetometers (OPMs) is a nontrivial task, but increasingly important for applications requiring high-accuracy such as magnetic navigation, geophysics research, and space exploration. Here, we showcase a vector OPM that utilizes Rabi oscillations driven...
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| creator | Kiehl, Christopher Menon, Thanmay S Knappe, Svenja Thiele, Tobias Regal, Cindy A |
| description | Robust calibration of vector optically pumped magnetometers (OPMs) is a
nontrivial task, but increasingly important for applications requiring
high-accuracy such as magnetic navigation, geophysics research, and space
exploration. Here, we showcase a vector OPM that utilizes Rabi oscillations
driven between the hyperfine manifolds of $^{87}$Rb to measure the direction of
a DC magnetic field against the polarization ellipse structure of a microwave
field. By relying solely on atomic measurements -- free-induction decay (FID)
signals and Rabi measurements across multiple atomic transitions -- this sensor
can detect drift in the microwave vector reference and compensate for
systematic shifts caused by off-resonant driving, nonlinear Zeeman (NLZ)
effects, and buffer gas collisions. To facilitate dead-zone-free operation, we
also introduce a novel Rabi measurement that utilizes dressed-state resonances
that appear during simultaneous Larmor precession and Rabi driving (SPaR).
These measurements, performed within a microfabricated vapor cell platform,
achieve an average vector accuracy of 0.46 mrad and vector sensitivities down
to 11 $\mu$rad$/\sqrt{\text{Hz}}$ for geomagnetic field strengths near 50
$\mu$T. This performance surpasses the challenging 1-degree (17 mrad) accuracy
threshold of several contemporary OPM methods utilizing atomic vapors with an
electromagnetic vector reference. |
| doi_str_mv | 10.48550/arxiv.2409.09885 |
| format | Article |
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nontrivial task, but increasingly important for applications requiring
high-accuracy such as magnetic navigation, geophysics research, and space
exploration. Here, we showcase a vector OPM that utilizes Rabi oscillations
driven between the hyperfine manifolds of $^{87}$Rb to measure the direction of
a DC magnetic field against the polarization ellipse structure of a microwave
field. By relying solely on atomic measurements -- free-induction decay (FID)
signals and Rabi measurements across multiple atomic transitions -- this sensor
can detect drift in the microwave vector reference and compensate for
systematic shifts caused by off-resonant driving, nonlinear Zeeman (NLZ)
effects, and buffer gas collisions. To facilitate dead-zone-free operation, we
also introduce a novel Rabi measurement that utilizes dressed-state resonances
that appear during simultaneous Larmor precession and Rabi driving (SPaR).
These measurements, performed within a microfabricated vapor cell platform,
achieve an average vector accuracy of 0.46 mrad and vector sensitivities down
to 11 $\mu$rad$/\sqrt{\text{Hz}}$ for geomagnetic field strengths near 50
$\mu$T. This performance surpasses the challenging 1-degree (17 mrad) accuracy
threshold of several contemporary OPM methods utilizing atomic vapors with an
electromagnetic vector reference.</description><identifier>DOI: 10.48550/arxiv.2409.09885</identifier><language>eng</language><subject>Physics - Atomic Physics</subject><creationdate>2024-09</creationdate><rights>http://creativecommons.org/licenses/by/4.0</rights><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>228,230,776,881</link.rule.ids><linktorsrc>$$Uhttps://arxiv.org/abs/2409.09885$$EView_record_in_Cornell_University$$FView_record_in_$$GCornell_University$$Hfree_for_read</linktorsrc><backlink>$$Uhttps://doi.org/10.48550/arXiv.2409.09885$$DView paper in arXiv$$Hfree_for_read</backlink></links><search><creatorcontrib>Kiehl, Christopher</creatorcontrib><creatorcontrib>Menon, Thanmay S</creatorcontrib><creatorcontrib>Knappe, Svenja</creatorcontrib><creatorcontrib>Thiele, Tobias</creatorcontrib><creatorcontrib>Regal, Cindy A</creatorcontrib><title>An accurate vector optically pumped magnetometer with microwave-driven Rabi frequency measurements</title><description>Robust calibration of vector optically pumped magnetometers (OPMs) is a
nontrivial task, but increasingly important for applications requiring
high-accuracy such as magnetic navigation, geophysics research, and space
exploration. Here, we showcase a vector OPM that utilizes Rabi oscillations
driven between the hyperfine manifolds of $^{87}$Rb to measure the direction of
a DC magnetic field against the polarization ellipse structure of a microwave
field. By relying solely on atomic measurements -- free-induction decay (FID)
signals and Rabi measurements across multiple atomic transitions -- this sensor
can detect drift in the microwave vector reference and compensate for
systematic shifts caused by off-resonant driving, nonlinear Zeeman (NLZ)
effects, and buffer gas collisions. To facilitate dead-zone-free operation, we
also introduce a novel Rabi measurement that utilizes dressed-state resonances
that appear during simultaneous Larmor precession and Rabi driving (SPaR).
These measurements, performed within a microfabricated vapor cell platform,
achieve an average vector accuracy of 0.46 mrad and vector sensitivities down
to 11 $\mu$rad$/\sqrt{\text{Hz}}$ for geomagnetic field strengths near 50
$\mu$T. This performance surpasses the challenging 1-degree (17 mrad) accuracy
threshold of several contemporary OPM methods utilizing atomic vapors with an
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nontrivial task, but increasingly important for applications requiring
high-accuracy such as magnetic navigation, geophysics research, and space
exploration. Here, we showcase a vector OPM that utilizes Rabi oscillations
driven between the hyperfine manifolds of $^{87}$Rb to measure the direction of
a DC magnetic field against the polarization ellipse structure of a microwave
field. By relying solely on atomic measurements -- free-induction decay (FID)
signals and Rabi measurements across multiple atomic transitions -- this sensor
can detect drift in the microwave vector reference and compensate for
systematic shifts caused by off-resonant driving, nonlinear Zeeman (NLZ)
effects, and buffer gas collisions. To facilitate dead-zone-free operation, we
also introduce a novel Rabi measurement that utilizes dressed-state resonances
that appear during simultaneous Larmor precession and Rabi driving (SPaR).
These measurements, performed within a microfabricated vapor cell platform,
achieve an average vector accuracy of 0.46 mrad and vector sensitivities down
to 11 $\mu$rad$/\sqrt{\text{Hz}}$ for geomagnetic field strengths near 50
$\mu$T. This performance surpasses the challenging 1-degree (17 mrad) accuracy
threshold of several contemporary OPM methods utilizing atomic vapors with an
electromagnetic vector reference.</abstract><doi>10.48550/arxiv.2409.09885</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Physics - Atomic Physics |
| title | An accurate vector optically pumped magnetometer with microwave-driven Rabi frequency measurements |
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