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479 results on '"Pail, Roland"'

1. Towards a realistic noise modelling of quantum sensors for future satellite gravity missions

Author

Encarnação, João, Siemes, Christian, Daras, Ilias, Carraz, Olivier, Strangfeld, Aaron, Zingerle, Philipp, and Pail, Roland

Subjects
Physics - Instrumentation and Detectors
Abstract

Cold Atom Interferometry (CAI) accelerometers and gradiometers have emerged as promising candidates for future gravimetric satellite missions due to their potential for detecting gravitational forces and gradients with high precision and accuracy. Current satellite gravimetry missions have demonstrated the utility of gravity data in understanding global mass transport phenomena, climate dynamics, and geological processes. However, state-of-the-art measurement techniques face noise and long-term drift limitations, which might propagate on the recovery of Earth's time-varying gravity field. Quantum sensors, particularly atom interferometry-based devices, offer promise for improving the accuracy and stability of space-based gravity measurements. This study explores the sensitivity of CAI accelerometers and gradiometers. We explore the low-low satellite-to-satellite and gravity gradiometry measurements to build analytical models of measurements and associated errors. We selected an ambitious scenario for CAI parameters that illustrates a potential path for increasing instrument accuracies and capabilities for space gravimetry. Two operational modes, concurrent and sequential, are compared to mitigate the effects of inaccurately known attitude rates on Coriolis accelerations. The sequential mode shows the potential to reduce these effects since the atom cloud has initial zero velocity, otherwise the Corilis effects are dominant in the concurrent operational mode. The CAI configuration considered in this study allows for the time variable gravity signal to be observed for the case of low-low Satellite-to-Satellite Tracking missions, but is inadequate to gravity gradient missions because of the reduced signal amplitude., Comment: To be submited to Advances in Space Research

Published
2024

2. Hybrid electrostatic-atomic accelerometer for future space gravity missions

Author

Zahzam, Nassim, Christophe, Bruno, Lebat, Vincent, Hardy, Emilie, Huynh, Phuong-Anh, Marquet, Noémie, Blanchard, Cédric, Bidel, Yannick, Bresson, Alexandre, Abrykosov, Petro, Gruber, Thomas, Pail, Roland, Daras, Ilias, and Carraz, Olivier

Subjects
Physics - Atomic Physics, Physics - Instrumentation and Detectors, Physics - Space Physics
Abstract

Long term observation of temporal Earth's gravity field with enhanced temporal and spatial resolution is a major objective for future satellite gravity missions. Improving the performance of the accelerometers present in such missions is one of the main path to explore. In this context, we propose to study an original concept of a hybrid accelerometer associating a state-of-the-art electrostatic accelerometer (EA) and a promising quantum sensor based on cold atom interferometry. To assess the performance potential of such instrument, numerical simulations have been performed to determine its impact in term of gravity field retrieval. Taking advantage of the long term stability of the cold atom interferometer (CAI), it has been shown that the reduced drift of the hybrid sensor could lead to improved gravity field retrieval. Nevertheless this gain vanishes once temporal variations of the gravity field and related aliasing effects are taken into account. Improved de-aliasing models or some specific satellite constellations are then required to maximize the impact of the accelerometer performance gain. To evaluate the achievable acceleration performance in orbit, a numerical simulator of the hybrid accelerometer has been developed and preliminary results are given. The instrument simulator has been in part validated by reproducing the performance achieved with a hybrid lab prototype operating on ground. The problematic of satellite rotation impact on the CAI has been also investigated both with instrument performance simulations and experimental demonstrations. It has been shown that the proposed configuration, where the EA's proof-mass acts as the reference mirror for the CAI, seems a promising approach to allow the mitigation of satellite rotation. A preliminary design has been elaborated along with a preliminary error, mass, volume and electrical power consumption budget., Comment: 47 pages, 31 figures

Published
2022
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4. Introduction

Author

Angermann, Detlef, Pail, Roland, Seitz, Florian, Hugentobler, Urs, Angermann, Detlef, Pail, Roland, Seitz, Florian, Hugentobler, Urs, Hein, Günter W., With Contrib. by, Lesch, Harald, With Contrib. by, and Rahmstorf, Stefan, With Contrib. by

Published
2022
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6. Societal Relevance of Geodetic Earth Observation

Author

Angermann, Detlef, Pail, Roland, Seitz, Florian, Hugentobler, Urs, Angermann, Detlef, Pail, Roland, Seitz, Florian, Hugentobler, Urs, Hein, Günter W., With Contrib. by, Lesch, Harald, With Contrib. by, and Rahmstorf, Stefan, With Contrib. by

Published
2022
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7. Our Planet in the Focus: Phenomena of Global Change

Author

Angermann, Detlef, Pail, Roland, Seitz, Florian, Hugentobler, Urs, Angermann, Detlef, Pail, Roland, Seitz, Florian, Hugentobler, Urs, Hein, Günter W., With Contrib. by, Lesch, Harald, With Contrib. by, and Rahmstorf, Stefan, With Contrib. by

Published
2022
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8. The Measurement of the Earth Through Time

Author

Angermann, Detlef, Pail, Roland, Seitz, Florian, Hugentobler, Urs, Angermann, Detlef, Pail, Roland, Seitz, Florian, Hugentobler, Urs, Hein, Günter W., With Contrib. by, Lesch, Harald, With Contrib. by, and Rahmstorf, Stefan, With Contrib. by

Published
2022
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13. Die Vermessung der Erde im Wandel der Zeit

Author

Angermann, Detlef, Pail, Roland, Seitz, Florian, Hugentobler, Urs, Angermann, Detlef, Pail, Roland, Seitz, Florian, Hugentobler, Urs, Hein, Günter W., With Contrib. by, Lesch, Harald, With Contrib. by, and Rahmstorf, Stefan, With Contrib. by

Published
2021
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14. Einführung

Author

Angermann, Detlef, Pail, Roland, Seitz, Florian, Hugentobler, Urs, Angermann, Detlef, Pail, Roland, Seitz, Florian, Hugentobler, Urs, Hein, Günter W., With Contrib. by, Lesch, Harald, With Contrib. by, and Rahmstorf, Stefan, With Contrib. by

Published
2021
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18. Mission Earth

Author

Angermann, Detlef, primary, Pail, Roland, additional, Seitz, Florian, additional, and Hugentobler, Urs, additional

Published
2022
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23. Colorado geoid computation experiment: overview and summary

Author

Wang, Yan Ming, Sánchez, Laura, Ågren, Jonas, Huang, Jianliang, Forsberg, René, Abd-Elmotaal, Hussein A., Ahlgren, Kevin, Barzaghi, Riccardo, Bašić, Tomislav, Carrion, Daniela, Claessens, Sten, Erol, Bihter, Erol, Serdar, Filmer, Mick, Grigoriadis, Vassilios N., Isik, Mustafa Serkan, Jiang, Tao, Koç, Öykü, Krcmaric, Jordan, Li, Xiaopeng, Liu, Qing, Matsuo, Koji, Natsiopoulos, Dimitris A., Novák, Pavel, Pail, Roland, Pitoňák, Martin, Schmidt, Michael, Varga, Matej, Vergos, Georgios S., Véronneau, Marc, Willberg, Martin, and Zingerle, Philipp

Published
2021
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24. Mission Erde

Author

Angermann, Detlef, primary, Pail, Roland, additional, Seitz, Florian, additional, and Hugentobler, Urs, additional

Published
2021
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26. Sensing the global CRUST1.0 Moho by gravitational curvatures of crustal mass anomalies.

Author

Deng, Xiao-Le, Shen, Wen-Bin, Kuhn, Michael, Hirt, Christian, and Pail, Roland

Subjects
INTERNAL structure of the Earth, MOHOROVICIC discontinuity, CURVATURE, GRAVITATIONAL potential, PEARSON correlation (Statistics)
Abstract

The gravitational curvatures (GC, the third-order derivatives of the gravitational potential) in gravity field modeling are gaining increased interest in geosciences. The crustal effects of the GC and Moho variation sensed by the GC are not fully evaluated for the current study. In this contribution, the effects of the GC induced by topographic and anomalous crustal masses are investigated based on ETOPO1 and CRUST1.0 models using the tesseroids. By adopting the gravitational stripping correction, the residual GC sensed by the CRUST1.0 Moho depths are presented globally to examine whether the GC can sense crustal mass anomalies at the satellite altitude of 260 km. The spatial analysis using the Pearson correlations coefficient (PCC) between the residual GC and the CRUST1.0 Moho depths is performed. Among the 10 residual GC functionals, the PCC value of the residual radial-radial-radial component $$\delta T_{zzz}^{{\rm{res}}}$$ δ T zzz res is largest with 0.31, where this value is highly dependent on the spectral content removed from the EGM2008, e.g. signals assumed to relate to deeper mass anomalies. Numerical experiments show that with the increased order of the derivatives up to third-order, the fineness level of different global Moho sensed crustal mass anomalies increases correspondingly. Taking the Tibetan plateau for example, the values of the $$\delta T_{zzz}^{{\rm{res}}}$$ δ T zzz res can better reveal the detailed features of the Tibetan plateau's Moho depth than these of the lower-order residual radial functionals (i.e. disturbing potential $$\delta {T^{{\rm{res}}}}$$ δ T res , disturbing radial gravity vector $$\delta T_z^{{\rm{res}}}$$ δ T z res , and disturbing radial-radial gravity gradient tensor $$\delta T_{zz}^{{\rm{res}}}$$ δ T zz res ), especially for the Qaidam, Sichuan, Tarim, and Turpan basins. Numerical results over the Himalayan region demonstrate that the GC component $$\delta T_z^{{\rm{res}}}$$ δ T z res has some potential in geophysical inversion. These residual GC functionals would help to get a better knowledge of the internal structures of the Earth and other planetary objects. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Advanced methodologies for large-scale gravity field modelling

Author

Pail, Roland (Prof. Dr.), Pail, Roland (Prof. Dr.);Schuh, Wolf-Dieter (Prof. Dr.);Reguzzoni, Mirko (Assoc. Prof. Dr.), Zingerle, Philipp, Pail, Roland (Prof. Dr.), Pail, Roland (Prof. Dr.);Schuh, Wolf-Dieter (Prof. Dr.);Reguzzoni, Mirko (Assoc. Prof. Dr.), and Zingerle, Philipp

Abstract

The thesis covers a holistic approach for large-scale gravity field modelling which encompasses all processing steps from data validation/reduction strategies over localized gravity field modelling methods right up to global spherical resp. spheroidal harmonic combination approaches. The focus lies on (1) improving existing methodologies, (2) highlighting synergies between the processing steps and (3) revealing remaining limitations., Es wird ein ganzheitlicher Ansatz zur großräumig angelegten Schwerefeldmodellierung vorgestellt. Dieser umfasst alle Prozessierungsschritte ausgehend von Validierungs-/Reduktionsstrategien über Methoden zur lokalen Modellierung bis hin zu globalen sphärisch/ellipsoidisch-harmonischen Kombinationsansätzen. Der Fokus liegt dabei (1) auf der Verbesserung existierender Methoden, (2) dem Hervorheben von Synergien zwischen Prozessierungsschritten und (3) dem Aufzeigen verbleibender Einschränkungen.

Published
2022

37. Geodesy

Author

Torge, Wolfgang, primary, Müller, Jürgen, additional, and Pail, Roland, additional

Published
2023
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38. In-Orbit Performance of the GRACE Accelerometers and Microwave Ranging Instrument

Author

Murböck, Michael, Abrykosov, Petro, Dahle, Christoph, Hauk, Markus, Pail, Roland, Flechtner, Frank, Murböck, Michael, Abrykosov, Petro, Dahle, Christoph, Hauk, Markus, Pail, Roland, and Flechtner, Frank

Abstract

The Gravity Recovery and Climate Experiment (GRACE) satellite mission has provided global long-term observations of mass transport in the Earth system with applications in numerous geophysical fields. In this paper, we targeted the in-orbit performance of the GRACE key instruments, the ACCelerometers (ACC) and the MicroWave ranging Instrument (MWI). For the ACC data, we followed a transplant approach analyzing the residual accelerations from transplanted accelerations of one of the two satellites to the other. For the MWI data, we analyzed the post-fit residuals of the monthly GFZ GRACE RL06 solutions with a focus on stationarity. Based on the analyses for the two test years 2007 and 2014, we derived stochastic models for the two instruments and a combined ACC+MWI stochastic model. While all three ACC axes showed worse performance than their preflight specifications, in 2007, a better ACC performance than in 2014 was observed by a factor of 3.6 due to switched-off satellite thermal control. The GRACE MWI noise showed white noise behavior for frequencies above 10 mHz around the level of (Formula presented.). In the combined ACC+MWI noise model, the ACC part dominated the frequencies below 10 mHz, while the MWI part dominated above 10 mHz. We applied the combined ACC+MWI stochastic models for 2007 and 2014 to the monthly GFZ GRACE RL06 processing. This improved the formal errors and resulted in a comparable noise level of the estimated gravity field parameters. Furthermore, the need for co-estimating empirical parameters was reduced.

Published
2023

39. Multi-decadal Satellite Gravity Mission Simulations Comparing Resolving Capabilities of a Long-term Trend in the Global Ocean Heat Content

Author

Marius Schlaak, Pail Roland, Alejandro Blazquez, Benoit Meyssignac, and Jean-Michel Lemoine

Abstract

Satellite gravity missions have been almost continuously observing global mass transports for more than two decades. The resulting data record already improved our understanding of large-scale processes of the water cycle and is reaching a timespan, which has significance concerning climate related mass transport signals such as changes in the essential climate variables terrestrial water storage (TWS) and sea level. The observations of the currently flown GRACE-FO mission will be continued by NASA’s Mass Change (MC) Mission and extended to the Mass change And Geosciences International Constellation (MAGIC) by ESA’s Next Generation Gravity Mission (NGGM), setting anticipation for higher spatial and temporal resolution of satellite gravity observations in the near future.This contribution presents initial results of multi-decadal closed loop simulations of current and future satellite gravity observations, comparing their capabilities to allow a direct estimation of long-term trends in changes of TWS and ocean mass. The observed climate signal is based on components of the TWS, as well as mass change signals of oceans, ice sheets, and glaciers extracted from CMIP6 climate projection following the shared socio-economic pathway scenario. A special focus here is on the long-term trend over the oceans. By subtracting the observed ocean mass change from the overall sea level change, the global ocean heat content can be computed from the steric component of the sea-level rise. The resulting long-term trends are then compared to initial inputs to the simulation to illustrate the difference in performance between current and future satellite gravity constellations.

Published
2023
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40. Future Gravity Field Satellite Missions

Author

Reubelt, Tilo, Sneeuw, Nico, Pour, Siavash Iran, Hirth, Marc, Fichter, Walter, Müller, Jürgen, Brieden, Phillip, Flechtner, Frank, Raimondo, Jean- Claude, Kusche, Jürgen, Elsaka, Basem, Gruber, Thomas, Pail, Roland, Murböck, Michael, Doll, Bernhard, Sand, Rolf, Wang, Xinxing, Klein, Volker, Lezius, Matthias, Danzmann, Karsten, Heinzel, Gerhard, Sheard, Benjamin, Rasel, Ernst, Gilowski, Michael, Schubert, Christian, Schäfer, Wolfgang, Rathke, Andreas, Dittus, Hansjörg, Pelivan, Ivanka, Stroink, Ludwig, Series editor, Mosbrugger, Volker, Series editor, Wefer, Gerold, Series editor, Flechtner, Frank, editor, Sneeuw, Nico, editor, and Schuh, Wolf-Dieter, editor

Published
2014
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