Geomagnetic jerks and rapid hydromagnetic waves focusing at Earth’s core surface
Published 2019 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Geomagnetic jerks and rapid hydromagnetic waves focusing at Earth’s core surface
Authors
Keywords
-
Journal
Nature Geoscience
Volume 12, Issue 5, Pages 393-398
Publisher
Springer Science and Business Media LLC
Online
2019-04-23
DOI
10.1038/s41561-019-0355-1
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Geomagnetic acceleration and rapid hydromagnetic wave dynamics in advanced numerical simulations of the geodynamo
- (2018) Julien Aubert GEOPHYSICAL JOURNAL INTERNATIONAL
- Geodynamo models with a stable layer and heterogeneous heat flow at the top of the core
- (2018) UR Christensen GEOPHYSICAL JOURNAL INTERNATIONAL
- Time-dependent low-latitude core flow and geomagnetic field acceleration pulses
- (2018) Clemens Kloss et al. GEOPHYSICAL JOURNAL INTERNATIONAL
- Turbulent geodynamo simulations: a leap towards Earth’s core
- (2017) N. Schaeffer et al. GEOPHYSICAL JOURNAL INTERNATIONAL
- Coupled dynamics of Earth's geomagnetic westward drift and inner core super-rotation
- (2016) Guillaume Pichon et al. EARTH AND PLANETARY SCIENCE LETTERS
- Electrical conductivity of the lowermost mantle explains absorption of core torsional waves at the equator
- (2016) Nathanaël Schaeffer et al. GEOPHYSICAL RESEARCH LETTERS
- Inertial–Alfvén waves as columnar helices in planetary cores
- (2016) O. P. Bardsley et al. JOURNAL OF FLUID MECHANICS
- The observational signature of modelled torsional waves and comparison to geomagnetic jerks
- (2016) G.A. Cox et al. PHYSICS OF THE EARTH AND PLANETARY INTERIORS
- Recent geomagnetic secular variation from Swarm and ground observatories as estimated in the CHAOS-6 geomagnetic field model
- (2016) Christopher C. Finlay et al. EARTH PLANETS AND SPACE
- Are geomagnetic data consistent with stably stratified flow at the core–mantle boundary?
- (2015) V. Lesur et al. GEOPHYSICAL JOURNAL INTERNATIONAL
- Geomagnetic forecasts driven by thermal wind dynamics in the Earth's core
- (2015) J. Aubert GEOPHYSICAL JOURNAL INTERNATIONAL
- Fast equatorial waves propagating at the top of the Earth's core
- (2015) Arnaud Chulliat et al. GEOPHYSICAL RESEARCH LETTERS
- Evidence for a new geomagnetic jerk in 2014
- (2015) J. Miquel Torta et al. GEOPHYSICAL RESEARCH LETTERS
- A candidate secular variation model for IGRF-12 based on Swarm data and inverse geodynamo modelling
- (2015) Alexandre Fournier et al. EARTH PLANETS AND SPACE
- International Geomagnetic Reference Field: the 12th generation
- (2015) Erwan Thébault et al. EARTH PLANETS AND SPACE
- Planetary gyre, time-dependent eddies, torsional waves, and equatorial jets at the Earth's core surface
- (2015) N. Gillet et al. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH
- Time-correlated patterns from spherical harmonic expansions: Application to geomagnetism
- (2015) M. A. Pais et al. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH
- Geomagnetic fluctuations reveal stable stratification at the top of the Earth’s core
- (2014) Bruce Buffett NATURE
- Geomagnetic secular acceleration, jerks, and a localized standing wave at the core surface from 2000 to 2010
- (2014) A. Chulliat et al. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH
- Efficient spherical harmonic transforms aimed at pseudospectral numerical simulations
- (2013) Nathanaël Schaeffer GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS
- The dynamics and excitation of torsional waves in geodynamo simulations
- (2013) R. J. Teed et al. GEOPHYSICAL JOURNAL INTERNATIONAL
- Bottom-up control of geomagnetic secular variation by the Earth’s inner core
- (2013) Julien Aubert et al. NATURE
- Characterization and implications of intradecadal variations in length of day
- (2013) R. Holme et al. NATURE
- Jerks abound: An analysis of geomagnetic observatory data from 1957 to 2008
- (2013) W.J. Brown et al. PHYSICS OF THE EARTH AND PLANETARY INTERIORS
- Timescales of geomagnetic secular acceleration in satellite field models and geodynamo models
- (2012) U. R. Christensen et al. GEOPHYSICAL JOURNAL INTERNATIONAL
- Investigating the 2003 geomagnetic jerk by simultaneous inversion of the secular variation and acceleration for both the core flow and its acceleration
- (2012) Luís Silva et al. PHYSICS OF THE EARTH AND PLANETARY INTERIORS
- The second generation of the GFZ Reference Internal Magnetic Model: GRIMM-2
- (2011) V. Lesur et al. EARTH PLANETS AND SPACE
- Measurements and uncertainties of the occurrence time of the 1969, 1978, 1991, and 1999 geomagnetic jerks
- (2011) K. J. Pinheiro et al. GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS
- Effect of a stably stratified layer near the outer boundary in numerical simulations of a magnetohydrodynamic dynamo in a rotating spherical shell and its implications for Earth’s core
- (2011) Takashi Nakagawa PHYSICS OF THE EARTH AND PLANETARY INTERIORS
- Core field acceleration pulse as a common cause of the 2003 and 2007 geomagnetic jerks
- (2010) A. Chulliat et al. GEOPHYSICAL RESEARCH LETTERS
- Fast torsional waves and strong magnetic field within the Earth’s core
- (2010) Nicolas Gillet et al. NATURE
- An Introduction to Data Assimilation and Predictability in Geomagnetism
- (2010) Alexandre Fournier et al. SPACE SCIENCE REVIEWS
- Geomagnetic Jerks: Rapid Core Field Variations and Core Dynamics
- (2010) Mioara Mandea et al. SPACE SCIENCE REVIEWS
- CHAOS-2���a geomagnetic field model derived from one decade of continuous satellite data
- (2009) Nils Olsen et al. GEOPHYSICAL JOURNAL INTERNATIONAL
- Rapidly changing flows in the Earth’s core
- (2008) Nils Olsen et al. Nature Geoscience
- The 2003 geomagnetic jerk and its relation to the core surface flows
- (2007) I WARDINSKI et al. EARTH AND PLANETARY SCIENCE LETTERS
Discover Peeref hubs
Discuss science. Find collaborators. Network.
Join a conversationPublish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn More