TY - JOUR
T1 - On the observation of magnetic events on broad-band seismometers
AU - Díaz, J.
AU - Ruiz, M.
AU - Curto, J. J.
AU - Torta, J. M.
AU - Ledo, J.
AU - Marcuello, A.
AU - Queralt, P.
N1 - Funding Information:
This contribution has received financial support from the Generalitat de Catalunya Grants 2017SGR1022 and 2017SGR596. The contribution of JJC and JMT has been supported by Spanish Project CGL2017-82169-C2-1-R (AEI/FEDER, UE), and contributions of JL, AM, and PQ, by CGL2017-82169-C2-2-R (AEI/FEDER, UE). Acknowledgements
Funding Information:
We want to acknowledge the ORFEUS EIDA (http://www.orfeus-eu.org/data/eida/) and the FDSN data services (https://www.fdsn.org/services/) to provide easy access to seismic data and to the different seismic networks making available its data. Data collected at magnetic observatories have been used as a supporting information in this contribution. We thank the national institutes that support them and INTERMAGNET for promoting high standards of magnetic observatory practice (http://www.intermagnet.org). We also thank to Service of Rapid Magnetic Variations (http://www.obsebre.es) for its effort to provide reliable lists of SSC events. We want also to acknowledge fruitful discussions on the characteristics of the SAA anomaly with Dr. F.J. Pav?n-Carrasco.
Publisher Copyright:
© 2020, The Author(s).
PY - 2020/12/1
Y1 - 2020/12/1
N2 - The objective of this contribution is to get new insights into the effects of magnetic field variations of natural and anthropogenic origin on broad-band seismic stations. Regarding natural sources of magnetic perturbations, we have investigated if the Sudden Storm Commencements (SSC) cataloged during the 24th solar cycle (2008–2019) can be systematically identified in broad-band seismic stations distributed worldwide. The results show that the 23 SSC events with a mean amplitude above 30 nT and most of those with lower energy but still clearly identified in the magnetometer detection network can be observed at broad-band stations’ network using a simple low-pass filter. Although the preliminary impulse of those signals is usually stronger at stations located at high latitudes, major SSC are observed at seismic stations distributed worldwide. Regarding anthropogenic sources, we focus on the short period seismic signals recorded in urban environments which are correlated with the activity of the railway transportation system. We have analyzed collocated measurements of electric field and seismic signals within Barcelona, evidencing that significant changes in the electric field following the activity of the transportation systems can be attributed to leakage currents transmitted to the soil by trains. During space weather events, electric currents in the magnetosphere and ionosphere experience large variations inducing telluric currents near the Earth surface, which in turn generate a secondary magnetic field. In the case of underground trains, leakage currents are transmitted to the soil, which in turn can result in local variations in the magnetic field. The observed signals in modern seismometers can be related to the reaction of the suspension springs to these magnetic field variations or to the effect of the magnetic field variations on the force transducers used to keep the mass fixed.[Figure not available: see fulltext.]
AB - The objective of this contribution is to get new insights into the effects of magnetic field variations of natural and anthropogenic origin on broad-band seismic stations. Regarding natural sources of magnetic perturbations, we have investigated if the Sudden Storm Commencements (SSC) cataloged during the 24th solar cycle (2008–2019) can be systematically identified in broad-band seismic stations distributed worldwide. The results show that the 23 SSC events with a mean amplitude above 30 nT and most of those with lower energy but still clearly identified in the magnetometer detection network can be observed at broad-band stations’ network using a simple low-pass filter. Although the preliminary impulse of those signals is usually stronger at stations located at high latitudes, major SSC are observed at seismic stations distributed worldwide. Regarding anthropogenic sources, we focus on the short period seismic signals recorded in urban environments which are correlated with the activity of the railway transportation system. We have analyzed collocated measurements of electric field and seismic signals within Barcelona, evidencing that significant changes in the electric field following the activity of the transportation systems can be attributed to leakage currents transmitted to the soil by trains. During space weather events, electric currents in the magnetosphere and ionosphere experience large variations inducing telluric currents near the Earth surface, which in turn generate a secondary magnetic field. In the case of underground trains, leakage currents are transmitted to the soil, which in turn can result in local variations in the magnetic field. The observed signals in modern seismometers can be related to the reaction of the suspension springs to these magnetic field variations or to the effect of the magnetic field variations on the force transducers used to keep the mass fixed.[Figure not available: see fulltext.]
KW - Anthropogenic sources of magnetic noise
KW - Seismic instrumentation
KW - Sudden Storm Commencements
UR - http://www.scopus.com/inward/record.url?scp=85088642925&partnerID=8YFLogxK
U2 - 10.1186/s40623-020-01236-9
DO - 10.1186/s40623-020-01236-9
M3 - Article
AN - SCOPUS:85088642925
SN - 1343-8832
VL - 72
JO - Earth, Planets and Space
JF - Earth, Planets and Space
IS - 1
M1 - 109
ER -