How to build a magnetometer with thermal atomic vapor: a tutorial

Fabricant, Anne; Novikova, Irina; Bison, G.

doi:10.1088/1367-2630/acb840

Cited by 16 publications

(7 citation statements)

References 197 publications

(197 reference statements)

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“…Relaxation-dispersion studies (measuring relaxation times as a function of field) may also reveal further information about water-storing structures [36, 37, 38]. Instrumentation such as custom magnetometers tailored to plant samples—with reduced standoff distance and surface temperature—will improve biocompatibility, and the use of Earth-field magnetometers would even enable unshielded measurements (see [39] and references therein). The shielded regime is itself of fundamental interest, for example in studying properties of biological tissues under hypogeomagnetic conditions such as those encountered during long-distance spaceflight.…”

Section: Discussionmentioning

confidence: 99%

Section: Proton Relaxometry Of Tree Leaves At Hypogeomagnetic Fieldsmentioning

confidence: 99%

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Proton Relaxometry of Tree Leaves at Hypogeomagnetic Fields

Fabricant,

Put,

Barskiy

2023

Preprint

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We report on a cross-species proton-relaxometry study inex vivotree leaves using nuclear magnetic resonance (NMR) at 7 μT. Apart from the intrinsic interest of probing nuclear-spin relaxation in biological tissues at magnetic fields below Earth field, our setup enables comparative analysis of plant water dynamics without the use of expensive commercial spectrometers. In this work, we focus on leaves from common Eurasian evergreen and deciduous tree families: Pinaceae (pine, spruce), Taxaceae (yew), Betulaceae (hazel), Prunus (cherry), and Fagaceae (beech, oak). Using a nondestructive protocol, we measure their effective protonT2relaxation times as well as track the evolution of water content associated with leaf dehydration. Newly developed “gradiometric quadrature” detection and data-processing techniques are applied in order to increase the signal-to-noise ratio (SNR) of the relatively weak measured signals. We find that while measured relaxation times do not vary significantly among tree genera, they tend to increase as leaves dehydrate. Such experimental modalities may have particular relevance for future drought-stress research in ecology, agriculture, and space exploration.

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Section: Discussionmentioning

confidence: 99%

Section: Proton Relaxometry Of Tree Leaves At Hypogeomagnetic Fieldsmentioning

confidence: 99%

Proton Relaxometry of Tree Leaves at Hypogeomagnetic Fields

Fabricant,

Put,

Barskiy

2023

Preprint

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“…The frequency ω m is (900-1100) Hz as usual. The derivative of the Lorentzian curve is generated when the signal from the photodetector is demodulated using a lock-in amplifier (LIA) [28]. Internally, the LIA at a given reference frequency, which should be the same as ω m .…”

Section: The Basic Principles Of Single-beam Atomic Magnetometer Oper...mentioning

confidence: 99%

Speedy in-situ magnetic field compensation algorithm for multiple-channel single-beam SERF atomic magnetometers

et al. 2023

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The currently employed algorithms for the magnetic field compensation of single-beam spin-exchange relaxation-free atomic magnetometers are excessively slow and unstable, which limits the use and commercialization of magnetometer arrays for biological magnetic measurement. This study proposes an improved trisection algorithm to compensate for the magnetic field around the vapor cell in an attempt to resolve these limitations. Through the constantly monitoring of the intensity of light emitted from a laser, the proposed algorithm reduces the time required to compensate for magnetic fields to 0.85 s in a single magnetometer, which is 9 times faster than the traditional algorithm, and to 26 s in a 36-channel magnetoencephalography equipment, which is 15.5 times faster than the traditional algorithm. In addition, an approximately 16% increase in measuring sensitivities is achieved based on the improved trisection algorithm compared with the traditional algorithm. These improvements can promote the usage efficiency and commercialization of biological magnetic measurement instruments. Furthermore, the improved trisection algorithm is verified using an experimental setup and the mathematical analysis and comparable experimental results demonstrate the effectiveness of the proposed algorithm.

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“…Other versions may observe the coherent Larmor precessions the atoms exhibit in a magnetic field, or, in the case of vector magnetometers, map the vector components onto different harmonics using radio-frequency modulation. 21 Electromagnetically induced transparency (EIT) is created by pumping the atoms into a dark state with a pump beam, leaving them unable to absorb an otherwise resonant probe beam, and hence transparent. Using vector light composed of different linear polarisations, the circular components act as both pump and probe simultaneously, and dependent on their phase, or the linear polarisation direction, EIT can or cannot be observed.…”

Section: Introductionmentioning

confidence: 99%

Spatially-dependent dark states in cold atomic vapours

Svensson,

Westerberg,

Samanta

et al. 2024

Complex Light and Optical Forces XVIII

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In this paper we expand and generalise the theoretical work underlying the results presented by F. Castellucci et al. in the paper at Ref. 1, offering an exploration into different regimes of vector light and light matter interaction as well as the inner atomic processes, such as the populations of newly derived partially dressed states which highlight the connection between polarisation and magnetic coupling, and the orbitals they correspond to. This deeper knowledge will not only increase our understanding of how light-atom interaction is impacted by the presence of magnetic fields, and is a step in improving this new method of magnetometry.

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How to build a magnetometer with thermal atomic vapor: a tutorial

Cited by 16 publications

References 197 publications

Proton Relaxometry of Tree Leaves at Hypogeomagnetic Fields

Proton Relaxometry of Tree Leaves at Hypogeomagnetic Fields

Speedy in-situ magnetic field compensation algorithm for multiple-channel single-beam SERF atomic magnetometers

Spatially-dependent dark states in cold atomic vapours

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