Gravity measurements below 10−9 g with a transportable absolute quantum gravimeter

Ménoret, Vincent; Vermeulen, Pierre; Moigne, Nicolas Le; Bonvalot, Sylvain; Bouyer, Philippe; Landragin, Arnaud; Desruelle, Bruno

doi:10.1038/s41598-018-30608-1

Cited by 305 publications

(252 citation statements)

References 40 publications

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Section: Discussionmentioning

confidence: 99%

“…This scenario does not need a pumping well, thus greatly reducing the cost. In view of the current advancements in gravimeter accuracy, transportability, and resilience (Menoret et al, 2018;Van Camp et al, 2017), a successful S y estimation from such shorttime gravity measurements can be very likely. silt/mud layer stretches from 41 to 45 m and a thin-layer sand from 56.5 to 76 m. Thus, we assume that the unconfined aquifer at Neicheng covers the depths from 0 to 41 m.…”

Section: Discussionmentioning

confidence: 99%

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Short‐Time Geodetic Determination of Aquifer Storage Coefficient in Taiwan

et al. 2018

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Specific yield (Sy) and specific storage (Ss) are two hydrogeological parameters often estimated in a costly pumping test (hydraulic method). Pumping or a natural aquifer recession can cause gravity change and surface deformation, useful for Sy and Ss determination by the more economic geodetic method. From 2013 to 2017, over a few days we measured gravity changes at four sites and subsidence at one site in Taiwan by a FG5 gravimeter and a precision level to estimate Sy and Ss. Using short‐time gravity and level records avoids complicated logistic supports and temporal effects. The measured gravity changes are associated with the MODFLOW‐modeled groundwater depletion. We succeeded in estimating Sy at two sites and failed at the other two. One successful case uses rapid postrain declines of gravity and groundwater level. We did leveling only at one site, but here the 500‐min, continuous, submillimeter subsidence records result in a Ss consistent with the hydraulic result. Lessons on the failed cases of Sy are suggested to avoid disrupting factors in gravity surveys. A semiautomatic leveling procedure is proposed to maximize the chance for Ss determination. Our simulations show that gravity changes increase with Sy and decrease with initial hydraulic head and horizontal gravimeter‐pumping well distance, helping to predict if the gravity‐based method works at a site and to best plan a gravity survey. Drilling data show that the Sy values from the hydraulic and geodetic methods represent aquifer storage coefficients over different aquifer layers.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Short‐Time Geodetic Determination of Aquifer Storage Coefficient in Taiwan

et al. 2018

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“…Atom guiding is of particular interest to us as it has the potential to reduce the size of experiments from tens of meters, to something even smaller than the portable 'fountain' systems already demonstrated [20,21]. While ring-guided ultracold atom interferometers have long been a goal [19,22], actual rotation metrology has only been achieved very recently [23,24].…”

Section: Introductionmentioning

confidence: 99%

Optical characterisation of micro-fabricated Fresnel zone plates for atomic waveguides

Henderson¹,

Johnson²,

Kale³

et al. 2020

Opt. Express

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We optically assess Fresnel zone plates (FZPs) that are designed to guide cold atoms. Imaging of various ring patterns produced by the FZPs gives an average RMS error in the brightest part of the ring of 3% with respect to trap depth. This residue will be due to the imaging system, incident beam shape and FZP manufacturing tolerances. Axial propagation of the potentials is presented experimentally and through numerical simulations, illustrating prospects for atom guiding without requiring light sheets.

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“…They offer the possibility to perform high repetition rate continuous measurements over extended periods of time [3,4], which represents an operation mode inaccessible to other absolute gravimeters that suffer from mechanical wear. These features have motivated the development of commercial cold atom gravimeters [5], addressing in particular applications in the fields of geophysics. Nevertheless, the accuracy of these sensors, though comparable, is today slightly worse.…”

Section: Introductionmentioning

confidence: 99%

Improving the accuracy of atom interferometers with ultracold sources

et al. 2018

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We report on the implementation of ultracold atoms as a source in a state of the art atom gravimeter. We perform gravity measurements with 10nm s −2 statistical uncertainties in a so-far largely unexplored temperature range for such a high accuracy sensor, down to 50 nK. This allows for an improved characterization of the most limiting systematic effect, related to wavefront aberrations of light beamsplitters. A thorough model of the impact of this effect onto the measurement is developed and a method is proposed to correct for this bias based on the extrapolation of the measurements down to zero temperature. Finally, an uncertainty of 13 nm s −2 is obtained in the evaluation of this systematic effect, which can be improved further by performing measurements at even lower temperatures. Our results clearly demonstrate the benefit brought by ultracold atoms to the metrological study of free falling atom interferometers. By tackling their main limitation, the method presented here allows reaching record-breaking accuracies for inertial sensors based on atom interferometry.

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Gravity measurements below 10−9 g with a transportable absolute quantum gravimeter

Cited by 305 publications

References 40 publications

Short‐Time Geodetic Determination of Aquifer Storage Coefficient in Taiwan

Short‐Time Geodetic Determination of Aquifer Storage Coefficient in Taiwan

Optical characterisation of micro-fabricated Fresnel zone plates for atomic waveguides

Improving the accuracy of atom interferometers with ultracold sources

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