The magnetic structure of convection-driven numerical dynamos, Geophys. J. Int, vol.172, issue.3, pp.945-956, 2008. ,
URL : https://hal.archives-ouvertes.fr/hal-00365069
Modelling the palaeoevolution of the geodynamo, Geophys. J. Int, vol.179, issue.3, pp.1414-1428, 2009. ,
URL : https://hal.archives-ouvertes.fr/insu-01308294
Spherical convective dynamos in the rapidly rotating asymptotic regime, J. Fluid Mech, vol.813, pp.558-593, 2017. ,
Late Ediacaran magnetostratigraphy of Baltica: Evidence for Magnetic Field Hyperactivity?, Earth Planet. Sci. Lett, vol.435, pp.124-135, 2016. ,
Possible links between long-term geomagnetic variations and whole-mantle convection processes, Nat. Geosci, vol.5, issue.8, pp.526-533, 2012. ,
Palaeomagnetic field intensity variations suggest Mesoproterozoic inner-core nucleation, Nature, vol.526, issue.7572, pp.245-248, 2015. ,
Equations governing convection in Earth's core and the geodynamo, Geophys. Astrophys. Fluid Dyn, vol.79, issue.1-4, pp.1-97, 1995. ,
Scaling properties of convectiondriven dynamos in rotating spherical shells and application to planetary magnetic fields, Geophys. J. Int, vol.166, issue.1, pp.97-114, 2006. ,
URL : https://hal.archives-ouvertes.fr/hal-00149194
Power requirement of the geodynamo from ohmic losses in numerical and laboratory dynamos, Nature, issue.6988, pp.169-171, 2004. ,
Conditions for Earthlike geodynamo models, Earth Planet. Sci. Lett, vol.296, issue.3-4, pp.487-496, 2010. ,
URL : https://hal.archives-ouvertes.fr/hal-00540375
Symmetry and stability of the geomagnetic field, Geophys. Res. Lett, vol.33, issue.21, pp.1-5, 2006. ,
Mantle plumes link magnetic superchrons to phanerozoic mass depletion events, Earth Planet. Sci. Lett, vol.260, issue.3-4, pp.495-504, 2007. ,
URL : https://hal.archives-ouvertes.fr/hal-00311002
Cooling history of Earth's core with high thermal conductivity, Phys. Earth Planet. Inter, vol.247, pp.65-79, 2015. ,
Insights from geodynamo simulations into long-term geomagnetic field behaviour, Earth Planet. Sci. Lett, vol.404, issue.0, pp.238-249, 2014. ,
Effect of inner core conductivity on planetary dynamo models, Phys. Earth Planet. Inter, issue.0, pp.1-9, 2012. ,
MHD flow in a slightly differentially rotating spherical shell, with conducting inner core, in a dipolar magnetic field, Earth Planet. Sci. Lett, vol.160, issue.1-2, pp.15-30, 1998. ,
Simulating 2 Ga of geodynamo history, Geophys. Res. Lett, vol.43, pp.1-8, 2016. ,
Frequency of Proterozoic geomagnetic superchrons, Earth Planet. Sci. Lett, vol.437, pp.9-14, 2016. ,
Effects of buoyancy and rotation on the polarity reversal frequency of gravitationally driven numerical dynamos, Geophys. J. Int, vol.178, issue.3, pp.1337-1350, 2009. ,
Superchron cycles driven by variable core heat flow, Geophys. Res. Lett, vol.38, issue.9, 2011. ,
Magnetic F. Lhuillier et al. reversal frequency in the Lower Cambrian Niutitang Formation, Geophys. J. Int, vol.214, issue.2, pp.1301-1312, 2018. ,
Stationary and nonstationary behaviour within the geomagnetic polarity time scale, Geophys. Res. Lett, vol.24, issue.15, pp.1875-1878, 1997. ,
URL : https://hal.archives-ouvertes.fr/insu-01406447
Three distinct reversing modes in the geodynamo, Izv., Phys. Solid Earth, vol.52, issue.2, pp.291-296, 2016. ,
Magnetic reversal frequency and apparent polar wander of the Siberian platform in the earliest Palaeozoic, inferred from the Khorbusuonka river section (northeastern Siberia), Geophys. J. Int, vol.154, issue.3, pp.829-840, 2003. ,
URL : https://hal.archives-ouvertes.fr/insu-01866898
Toward constraining the long-term reversing behavior of the geodynamo: A new "Maya" superchron ?1 billion years ago from the magnetostratigraphy of the Kartochka Formation (southwestern Siberia), Earth Planet. Sci. Lett, pp.117-126, 2012. ,
Geodynamo Simulations -How Realistic Are They?, Annu. Rev. Earth Planet. Sci, vol.30, pp.237-257, 2002. ,
A three-dimensional convective dynamo solution with rotating and finitely conducting inner core and mantle, Phys. Earth Planet. Inter, vol.91, issue.1-3, pp.63-75, 1995. ,
A three-dimensional selfconsistent computer-simulation of a geomagnetic-field reversal, Nature, vol.377, issue.6546, pp.203-209, 1995. ,
The role of the Earth's mantle in controlling the frequency of geomagnetic reversals, Nature, vol.401, issue.6756, pp.885-890, 1999. ,
An exceptionally weak Devonian geomagnetic field recorded by the Viluy Traps, Earth Planet. Sci. Lett, vol.506, pp.134-145, 2019. ,
Testing the geomagnetic dipole and reversing dynamo models over Earth's cooling history, Phys. Earth Planet. Inter, vol.224, pp.124-131, 2013. ,
A numerical study of dynamo action as a function of spherical shell geometry, Earth Planet. Sci. Lett, vol.236, issue.1-2, pp.542-557, 2005. ,
Influence of the Earth's inner core on geomagnetic fluctuations and reversals, Nature, vol.365, issue.6446, pp.541-543, 1993. ,
Do superchrons occur without any palaeomagnetic warning?, Earth Planet. Sci. Lett, vol.210, issue.1-2, pp.191-201, 2003. ,
A statistical approach to the Earth's main magnetic field, Phys. Earth Planet. Inter, vol.82, issue.3-4, pp.167-183, 1994. ,
The Earth's Inner Core, Nature, issue.4372, pp.297-298, 1953. ,
Flow speeds and length scales in geodynamo models: The role of viscosity, Earth Planet. Sci. Lett, pp.156-162, 2013. ,
Thermal evolution of the core with a high thermal conductivity, Phys. Earth Planet. Inter, vol.247, pp.36-55, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-01589713
The age of the inner core, Earth Planet. Sci. Lett, vol.190, issue.3-4, pp.111-123, 2001. ,
The signature of inner-core nucleation on the geodynamo, Earth Planet. Sci. Lett, vol.465, pp.193-204, 2017. ,
Quantifying paleosecular variation: Insights from numerical dynamo simulations, Earth Planet. Sci. Lett, vol.382, pp.87-97, 2013. ,
Earth's dynamo limit of predictability controlled by magnetic dissipation, Geophys. J. Int, vol.186, issue.2, pp.492-508, 2011. ,
The geomagnetic secular-variation timescale in observations and numerical dynamo models, Geophys. Res. Lett, vol.38, issue.9, 2011. ,
URL : https://hal.archives-ouvertes.fr/insu-01410184
Statistical properties of reversals and chrons in numerical dynamos and implications for the geodynamo, Phys. Earth Planet. Inter, vol.220, pp.19-36, 2013. ,
Lower Mantle Convection and Geomagnetism, J. Geophys. Res, vol.89, issue.NB5, pp.3354-3362, 1984. ,
Evolution of the geomagnetic reversal rate since 160 Ma: Is the process continuous?, J. Geophys. Res, issue.B12, pp.28455-28460, 2000. ,
, 8.02 Energetics of the Core, pp.27-55, 2015.
Gravitational dynamos and the low-frequency geomagnetic secular variation, Proc. Natl. Acad. Sci. U.S.A, vol.104, issue.51, pp.20160-20166, 2007. ,
Magnetic reversal frequency scaling in dynamos with thermochemical convection, Phys. Earth Planet. Inter, vol.229, issue.C, pp.122-133, 2014. ,
URL : https://hal.archives-ouvertes.fr/hal-02363671
Geodynamo reversal frequency and heterogeneous coremantle boundary heat flow, Phys. Earth Planet. Inter, vol.180, issue.1-2, pp.66-79, 2010. ,
Controls on geomagnetic reversals and core evolution by mantle convection in the Phanerozoic, Phys. Earth Planet. Inter, vol.214, pp.87-103, 2013. ,
Core evolution driven by mantle global circulation, Phys. Earth Planet. Inter, vol.243, pp.44-55, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-02334193
Transition between viscous dipolar and inertial multipolar dynamos, Geophys. Res. Lett, vol.41, pp.7115-7120, 2014. ,
Middle Cambrian high magnetic reversal frequency (Kulumbe River section, northwestern Siberia) and reversal behaviour during the Early Palaeozoic, Earth Planet. Sci. Lett, vol.185, issue.1-2, pp.173-183, 2001. ,
A third superchron during the Early Paleozoic, Episodes, vol.28, issue.2, pp.78-84, 2005. ,
Variations in geomagnetic reversal frequency during the Earth's middle age, Geochem. Geophys. Geosyst, vol.11, issue.1, pp.1-10, 2010. ,
The geodynamo, past, present and future, Geophys. Astrophys. Fluid Dyn, vol.94, issue.1-2, pp.47-84, 2001. ,
The first magnetostratigraphic data on the stratotype of the Lopata Formation, Northeastern Yenisei Ridge: Problems of its age and paleogeography of the Siberian Platform at the Proterozoic-Phanerozoic boundary, Dokl. Earth Sc, vol.465, issue.2, pp.1211-1214, 2015. ,
Was the Devonian geomagnetic field dipolar or multipolar? Palaeointensity studies of Devonian igneous rocks from the Minusa Basin (Siberia) and the Kola Peninsula dykes, Geophys. J. Int, vol.209, issue.2, pp.1265-1286, 2017. ,
, Geophys. J. Int, vol.205, issue.2, pp.1190-1195, 2016.
Extracting scaling laws from numerical dynamo models, Geophys. J. Int, vol.193, issue.3, pp.1265-1276, 2013. ,
Paleointensities, in Geomagnetism, pp.509-563, 2007. ,
Origin of the Pacific Jurassic quiet zone, Geology, vol.34, issue.9, p.789, 2006. ,
Deciphering records of geomagnetic reversals, Rev. Geophys, p.54, 2016. ,
Inner-core conductivity in numerical dynamo simulations, Phys. Earth Planet. Inter, vol.132, issue.4, pp.281-302, 2002. ,
Palaeomagnetic interpretation of dynamo simulations, Geophys. J. Int, vol.162, issue.2, pp.371-380, 2005. ,
A gaussian model for simulated geomagnetic field reversals, Phys. Earth Planet. Inter, vol.259, pp.45-60, 2016. ,