Latitudinal variation rate of geomagnetic cutoff rigidity in the active Chilean convergent margin
Author
dc.contributor.author
Cordaro Cárdenas, Enrique
Author
dc.contributor.author
Venegas, Patricio
Author
dc.contributor.author
Laroze, David
Admission date
dc.date.accessioned
2018-08-01T20:02:45Z
Available date
dc.date.available
2018-08-01T20:02:45Z
Publication date
dc.date.issued
2018
Cita de ítem
dc.identifier.citation
Ann. Geophys., 36, 275–285, 2018
es_ES
Identifier
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https://doi.org/10.5194/angeo-36-275-2018
Identifier
dc.identifier.uri
https://repositorio.uchile.cl/handle/2250/150550
Abstract
dc.description.abstract
Abstract. We present a different view of secular variation
of the Earth’s magnetic field, through the variations in the
threshold rigidity known as the variation rate of geomagnetic
cutoff rigidity (VRc). As the geomagnetic cutoff rigidity (Rc)
lets us differentiate between charged particle trajectories arriving
at the Earth and the Earth’s magnetic field, we used
the VRc to look for internal variations in the latter, close to
the 70 south meridian. Due to the fact that the empirical
data of total magnetic field BF and vertical magnetic field Bz
obtained at Putre (OP) and Los Cerrillos (OLC) stations are
consistent with the displacement of the South Atlantic magnetic
anomaly (SAMA), we detected that the VRc does not
fully correlate to SAMA in central Chile. Besides, the lower
section of VRc seems to correlate perfectly with important
geological features, like the flat slab in the active Chilean
convergent margin. Based on this, we next focused our attention
on the empirical variations of the vertical component
of the magnetic field Bz, recorded in OP prior to the
Maule earthquake in 2010, which occurred in the middle of
the Chilean flat slab.We found a jump in Bz values and main
frequencies from 3.510 to 5.860 μHz, in the second derivative
of Bz, which corresponds to similar magnetic behavior
found by other research groups, but at lower frequency
ranges. Then, we extended this analysis to other relevant subduction
seismic events, like Sumatra in 2004 and Tohoku in
2011, using data from the Guam station. Similar records and
the main frequencies before each event were found. Thus,
these results seem to show that magnetic anomalies recorded
on different timescales, as VRc (decades) and Bz (days), may
correlate with some geological events, as the lithosphere–
atmosphere–ionosphere coupling (LAIC).
es_ES
Patrocinador
dc.description.sponsorship
FCFM at the University of Chile
South American Magnetometer B-Field Array (SAMBA/AMBER) project of the University of California, Los Angeles, USA
University of Tarapaca University, Chile
Chile-Italy Collaboration via the University of Chile and PNRA (Italy)
INACh
CONICYT
ANILLO ACT 1410
Yachay Tech startup
BASAL/CONICYT
FB0807
CEDENNA