Journal
EARTH PLANETS AND SPACE
Volume 73, Issue 1, Pages -Publisher
SPRINGER
DOI: 10.1186/s40623-020-01341-9
Keywords
Electromagnetic induction; Three-dimensional conductivity models; Matrix Q-responses; Inversion; Time-varying magnetic field; Magnetospheric ring-current source; Satellite data; Observatory data
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This study presents results of mapping three-dimensional variations of the electrical conductivity in depths ranging from 400 to 1200 km using 6 years of magnetic data, and investigates the effect of different combinations of input data sets on transfer functions. A new global 1-D conductivity profile is also proposed based on a joint analysis of satellite tidal signals and global magnetospheric Q-responses.
This study presents results of mapping three-dimensional (3-D) variations of the electrical conductivity in depths ranging from 400 to 1200 km using 6 years of magnetic data from the Swarm and CryoSat-2 satellites as well as from ground observatories. The approach involves the 3-D inversion of matrix Q-responses (transfer functions) that relate spherical harmonic coefficients of external (inducing) and internal (induced) origin of the magnetic potential. Transfer functions were estimated from geomagnetic field variations at periods ranging from 2 to 40 days. We study the effect of different combinations of input data sets on the transfer functions. We also present a new global 1-D conductivity profile based on a joint analysis of satellite tidal signals and global magnetospheric Q-responses.
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