During the recent decades, space missions (e.g., CHAMP, GOCE, GRACE and Swarm) have been developed by space agencies in Europe and the USA to measure the Earth’s gravity and magnetic fields and their spatio-temporal variations. These successful missions have already provided a wealth of groundbreaking results about the permanent and time-variable gravity and magnetic fields of the Earth. However, more can be learned about the Earth’s structure by combining data of the gravity and magnetic fields, together with Earth’s rotation data routinely measured using space geodesy techniques, as well as with the most up-to-date modelling of the Earth's internal structure. Use in synergy of these global observables and model data represents a unique way to further investigate the physics of the deep Earth's interior. In addition to the well-known correlation between Earth’s rotation and magnetic field observed at interannual and decadal time scales, recent studies have reported unexpected correlation between spatio-temporal changes of the gravity field and magnetic field, also at interannual time scale. These changes may result from processes occurring in the liquid core and at the core-mantle boundary. This book gathers a series of chapters that provide state-of-the art overviews on the gravity field, magnetic field and Earth’s rotation observations, and on their interpretation in terms of the deep Earth’s structure, as well as on core dynamics and processes at the core-mantle boundary. The chapters 'Gravity Variations and Ground Deformations Resulting from Core Dynamics', 'Rapid Variations of Earth’s Core Magnetic Field', 'A Dynamical Prospective on Interannual Geomagnetic Field Changes', 'Core Eigenmodes and their Impact on the Earth’s Rotation', 'Earth’s Rotation: Observations and Relation to Deep Interior', 'Interiors of Earth-Like Planets and Satellites of the Solar System', 'Correction to: Interiors of Earth-like planets and satellites of the Solar System', 'Fluid Dynamics Experiments for Planetary Interiors', 'Structure, Materials and Processes in the Earth’s Core and Mantle', 'Correction to: Structure, Materials and Processes in the Earth’s Core and Mantle' and 'Applications and Challenges of GRACE and GRACE Follow-On Satellite Gravimetry' are available open access under a Creative Commons Attribution 4.0 International License via link.springer.com. Previously published in Surveys in Geophysics, Volume 43, Issue 1, 2022
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Guest Editorial: International Space Science Institute (ISSI) Workshop on Probing Earth’s Deep Interior Using Space Observations Synergistically.- Gravity Variations and Ground Deformations Resulting from Core Dynamics.- Rapid Variations of Earth’s Core Magnetic Field.- A Dynamical Prospective on Interannual Geomagnetic Field Changes.- Core Eigenmodes and their Impact on the Earth’s Rotation.- Earth’s Rotation: Observations and Relation to Deep Interior.- Interiors of Earth-Like Planets and Satellites of the Solar System.- Correction to: Interiors of Earth-like planets and satellites of the Solar System.- Fluid Dynamics Experiments for Planetary Interiors.- Structure, Materials and Processes in the Earth’s Core and Mantle.- Correction to: Structure, Materials and Processes in the Earth’s Core and Mantle.- Applications and Challenges of GRACE and GRACE Follow-On Satellite Gravimetry.
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During the recent decades, space missions (e.g., CHAMP, GOCE, GRACE and Swarm) have been developed by space agencies in Europe and the USA to measure the Earth’s gravity and magnetic fields and their spatio-temporal variations. These successful missions have already provided a wealth of groundbreaking results about the permanent and time-variable gravity and magnetic fields of the Earth. However, more can be learned about the Earth’s structure by combining data of the gravity and magnetic fields, together with Earth’s rotation data routinely measured using space geodesy techniques, as well as with the most up-to-date modelling of the Earth's internal structure. Use in synergy of these global observables and model data represents a unique way to further investigate the physics of the deep Earth's interior. In addition to the well-known correlation between Earth’s rotation and magnetic field observed at interannual and decadal time scales, recent studies have reported unexpected correlation between spatio-temporal changes of the gravity field and magnetic field, also at interannual time scale. These changes may result from processes occurring in the liquid core and at the core-mantle boundary. This book gathers a series of chapters that provide state-of-the art overviews on the gravity field, magnetic field and Earth’s rotation observations, and on their interpretation in terms of the deep Earth’s structure, as well as on core dynamics and processes at the core-mantle boundary. The chapters 'Gravity Variations and Ground Deformations Resulting from Core Dynamics', 'Rapid Variations of Earth’s Core Magnetic Field', 'A Dynamical Prospective on Interannual Geomagnetic Field Changes', 'Core Eigenmodes and their Impact on the Earth’s Rotation', 'Earth’s Rotation: Observations and Relation to Deep Interior', 'Interiors of Earth-Like Planets and Satellites of the Solar System', 'Correction to: Interiors of Earth-like planets and satellites of the Solar System', 'Fluid Dynamics Experiments for Planetary Interiors', 'Structure, Materials and Processes in the Earth’s Core and Mantle', 'Correction to: Structure, Materials and Processes in the Earth’s Core and Mantle' and 'Applications and Challenges of GRACE and GRACE Follow-On Satellite Gravimetry' are available open access under a Creative Commons Attribution 4.0 International License via link.springer.com. Previously published in Surveys in Geophysics, Volume 43, Issue 1, 2022
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Provides a unique overview of the impact of deep Earth processes on global Earth observables Shares a most up-to-date discussion on deep Earth processes Offers state of the art models of the Earth’s core motions
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GPSR Compliance The European Union's (EU) General Product Safety Regulation (GPSR) is a set of rules that requires consumer products to be safe and our obligations to ensure this. If you have any concerns about our products you can contact us on ProductSafety@springernature.com. In case Publisher is established outside the EU, the EU authorized representative is: Springer Nature Customer Service Center GmbH Europaplatz 3 69115 Heidelberg, Germany ProductSafety@springernature.com
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Produktdetaljer

ISBN
9783031392849
Publisert
2024-09-27
Utgiver
Vendor
Springer International Publishing AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet

Biographical note

Veronique Dehant works at the Royal Observatory of Belgium, where she is responsible for the Operational Directorate "Reference Systems and Planetology". She is also Extraordinary Professor at the Catholic University of Louvain (UCLouvain). She is an Academician (Member of the Royal Academy of Belgium, Science Class) since 2010, Foreign Member of the Paris Academy of Sciences since 2016 and has been awarded several prizes including the Descartes Prize of the European Union in 2003 and she has just been awarded the De Leeuw-Damry-Bourlart Prize, Prize in Fundamental Exact Sciences among the five FNRS research excellence prizes. In 2015 and 2020, she obtained an Advanced Grant and a Synergy Grant from the European Research Council. She is involved in processing data from instruments in several space missions, in particular of the RISE experiment (Rotation and Interior Structure Experiment) on board the InSight mission (Interior Exploration using Seismic Investigations, Geodesy and Heat Transport) currently on the surface of Mars.


Mioara Mandea is currently the Programme Manager for Solid Earth at the Directorate for Innovation, Applications and Science at Centre National d’Etudes Spatiales in Paris (French Space Agency). Over recent decades, she has been involved in many activities of the International Association of Geomagnetism and Aeronomy (both Secretary General and President), European Geosciences Union (General Secretary and Chair of Outreach Committee), American Geophysical Union (Chair of Education Award Committee), International Space Science Institute (Chair of Science Committee), Commission for the Geological Map of the World (President of the Sub-commission of Geophysical maps), to name the most important. Mioara Mandea has published more than 250 papers (publications in ISI journals, further journals, books and chapters in books, proceedings and reports),and has been involved in organising many workshops and conferences. She has also led several multi-partner research projects or work packages within projects at different national and EU levels. She has tutored PhD students from many countries around the world. She is a member of the Editorial Board of Surveys in Geophysics (from 2009) and of Solid Earth (from 2010) and co-Editor of several books (Springer, CUP). She has acted as reviewer for more than 120 manuscripts submitted to a broad range of journals and as referee for projects submitted to the ERC and to the National Science Foundations of France, Romania, Norway, Switzerland, Lithuania, Russia, USA and Portugal.Mioara Mandea is a member of the Academy of Romanian Scientists, Academia Europea, Académie Royale de Belgique, and the Russian Academy of Science. She received the International Award of AGU, the Petrus Peregrinus medal of EGU, the prestigious French “Ordre National de Mérite”, and Citoyenne d’Honneur de Comanesti (ville natale en Roumanie).

Anny Cazenave is director for Earth sciences at the International Space Science Institute, Bern, Switzerland and emeritus scientist at the ‘Laboratoire d’Etudes en Géophysique et Océanographie Spatiale’, Toulouse, France. Her research deals with the applications of space techniques to geosciences (geodesy, solid Earth geophysics, sea level change and climatic causes, land hydrology from space).

Lorena Moreira earned her PhD of Science in Physics from the University of Bern (Switzerland), studying temporal variability and climate induced changes on middle atmospheric ozone measured by a ground-based microwave radiometer (GROMOS) located at Bern. She has coauthored over 10 publications including Atmospheric Chemistry and Physics, Earth Planets and Space, Global and Planetary Change, Remote Sensing, Surveys in Geophysics, etc. Lorena Moreira is a postdoctoral fellow at the International Space Science Institute (ISSI, Bern, Switzerland) under the supervision of Dr. Anny Cazenave. Her current research focuses is on the study of variability of altimetry-based sea-level rise at global and regional scale and the influence of the sea-level budget components.