On the determination of vertical gravity gradients by corner-cube absolute gravimeters

被引:6
|
作者
Palinkas, Vojtech [1 ]
Kren, Petr [2 ]
Val'ko, Milos [1 ]
Masika, Pavel [2 ]
机构
[1] Geodet Observ Pecny, Res Inst Geodesy Topog & Cartog, Ondrejov 25165 244, Czech Republic
[2] Czech Metrol Inst, Okruzni 31, Brno 63800, Czech Republic
关键词
vertical gravity gradient; gravity acceleration; absolute gravimeter; FG5X; measurement model; effective height; EFFECTIVE MEASUREMENT HEIGHT; LIGHT PERTURBATION; SPEED;
D O I
10.1088/1681-7575/ab32fb
中图分类号
TH7 [仪器、仪表];
学科分类号
0804 ; 080401 ; 081102 ;
摘要
This paper describes a new approach for the determination of vertical gravity gradients (VGGs) from the measurements of corner-cube absolute gravimeters based on laser interferometry. The new approach has been obtained by the modification of the equation for linear least squares solution used in the determination of the g-values. It enables one to establish a clear mathematical relation between the gravity residuals and the VGG estimates. As it is shown, in the determination of gradients with an accuracy approaching 10 mu Gal m(-1) (1 mu Gal = 1 x 10(-8) m S-2), it is necessary to correct directly the measured quantities (time and distance pairs) for 'known', or sufficiently well modelled, perturbations as e.g. self- attraction or cable effects. Generally, if the gradients are determined from the data of absolute gravimeters, systematic low frequency perturbation in the residuals have to be analysed carefully. In this way, hidden perturbations in the residuals can be identified, which might be important also for the correct estimation of the g-values and associated uncertainties. This is shown on the example of a parasitic wave detected in the residuals of the FG5X-251 gravimeter, reaching a period of about 0.13 m and amplitudes up to 40 pm. Finally, we compare the gravity gradients determined by the new approach with a more accurate method using relative gravimeters. This comparison shows that the gradient estimates from the FG5X-251 absolute gravimeter are biased by about 10 mu Gal m(-1) and reach reproducibility of 14 mu Gal m(-1). The effort to determine VGGs from absolute gravimeters enhanced the analyses of the measured data, identified still existing artefacts in the gravity residuals, the explanation of which should lead to improvements in the measurement model in order to obtain more accurate estimates of the g-values, VGGs and their uncertainties.
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页数:9
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