Declining magnetic field at Maitri, Antarctica

The Earth's magnetic field is due to huge electric current circulating in the core of the Earth. Geomagnetic field is mostly dipolar in nature although multi poles also have some contribution. However, the main complication lies in the fact that there are a multitude of extraneous sources, whic...

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Bibliographic Details
Main Authors: Pathan, B.M., Dhar, Ajay, Asinkar, R.L., Selvamurugan, R., Hanchinal, A.N.
Format: Article in Journal/Newspaper
Language:English
Published: 2009
Subjects:
Geomagnetic field
Dakshin Gangotri
Maitri
Antarctica
Southern Hemisphere
Northern Hemisphere
Antarctic
Indian
Antarc*
Online Access:http://14.139.123.141:8080/jspui/handle/123456789/532
id ftindinstgeomagn:oai:localhost:123456789/532
record_format openpolar
spelling ftindinstgeomagn:oai:localhost:123456789/532 2023-05-15T14:04:08+02:00 Declining magnetic field at Maitri, Antarctica Pathan, B.M. Dhar, Ajay Asinkar, R.L. Selvamurugan, R. Hanchinal, A.N. 2009 http://14.139.123.141:8080/jspui/handle/123456789/532 en eng Geomagnetic field Dakshin Gangotri Maitri Antarctica Southern Hemisphere Northern Hemisphere Article 2009 ftindinstgeomagn 2019-11-26T08:39:22Z The Earth's magnetic field is due to huge electric current circulating in the core of the Earth. Geomagnetic field is mostly dipolar in nature although multi poles also have some contribution. However, the main complication lies in the fact that there are a multitude of extraneous sources, which produce distortions in the magnetic field. As a consequence, the Earth¿s magnetic field is very complex which protects the Earth¿s surface and its inhabitants from hazardous cosmic radiation (energetic protons) received from the Sun. It is known that the Earth¿s magnetic field is decaying faster than any other worldwide geophysical phenomenon. This reported decrease is a major concern for the human kind. Will this continuous decrease lead to zero magnetic field sometimes in future? If so, how life on this planet will be affected? It is seen that the decline is mostly in the dipolar contribution. The decrease in magnetic field is not uniform all over the globe. It is reported that the geomagnetic field is declining in the Southern Hemisphere while in the Northern Hemisphere it is more or less steady or at a small increase. In the Southern Hemisphere too, the decrease is higher at certain locations. Indian Antarctic station, Maitri (Geog. 70.75o S, 11.75o E), is one such location recording a sharp decrease. Indian Institute of Geomagnetism is taking part in the annual Indian expeditions to Antarctica since its inception in 1981-82. A Proton Precession Magnetometer (PPM) is used to monitor the total magnetic field (F). It is seen that the magnetic field at Maitri has decreased by more than 2000 nT in the last 20 years. Geomagnetic field model reveals that the rate of decrease in the magnetic field at Maitri during the last century is about 105 nT/year. Maximum rate of decrease of about 120 nT/year is seen further north of this station. This result is discussed in terms of change of magnetic pole position, magnetic dipole moment and magnetic energy. It is seen that the decrease of energy in the dipole part has been, almost completely balanced by a corresponding increase in the energy of the non-dipole field. As a net result the energy of the total observed field measured all over the globe has remained almost constant. However, the magnetic moment has been found to change more rapidly at locations close to magnetic poles. Hence, the importance of continuous monitoring of total magnetic field at Maitri is emphasised. Article in Journal/Newspaper Antarc* Antarctic Antarctica Indian Institute of Geomagnetism (IIG): Repository Antarctic Dakshin Gangotri ENVELOPE(12.000,12.000,-70.083,-70.083) Indian Maitri ENVELOPE(11.733,11.733,-70.764,-70.764)
institution Open Polar
collection Indian Institute of Geomagnetism (IIG): Repository
op_collection_id ftindinstgeomagn
language English
topic Geomagnetic field
Dakshin Gangotri
Maitri
Antarctica
Southern Hemisphere
Northern Hemisphere
spellingShingle Geomagnetic field
Dakshin Gangotri
Maitri
Antarctica
Southern Hemisphere
Northern Hemisphere
Pathan, B.M.
Dhar, Ajay
Asinkar, R.L.
Selvamurugan, R.
Hanchinal, A.N.
Declining magnetic field at Maitri, Antarctica
topic_facet Geomagnetic field
Dakshin Gangotri
Maitri
Antarctica
Southern Hemisphere
Northern Hemisphere
description The Earth's magnetic field is due to huge electric current circulating in the core of the Earth. Geomagnetic field is mostly dipolar in nature although multi poles also have some contribution. However, the main complication lies in the fact that there are a multitude of extraneous sources, which produce distortions in the magnetic field. As a consequence, the Earth¿s magnetic field is very complex which protects the Earth¿s surface and its inhabitants from hazardous cosmic radiation (energetic protons) received from the Sun. It is known that the Earth¿s magnetic field is decaying faster than any other worldwide geophysical phenomenon. This reported decrease is a major concern for the human kind. Will this continuous decrease lead to zero magnetic field sometimes in future? If so, how life on this planet will be affected? It is seen that the decline is mostly in the dipolar contribution. The decrease in magnetic field is not uniform all over the globe. It is reported that the geomagnetic field is declining in the Southern Hemisphere while in the Northern Hemisphere it is more or less steady or at a small increase. In the Southern Hemisphere too, the decrease is higher at certain locations. Indian Antarctic station, Maitri (Geog. 70.75o S, 11.75o E), is one such location recording a sharp decrease. Indian Institute of Geomagnetism is taking part in the annual Indian expeditions to Antarctica since its inception in 1981-82. A Proton Precession Magnetometer (PPM) is used to monitor the total magnetic field (F). It is seen that the magnetic field at Maitri has decreased by more than 2000 nT in the last 20 years. Geomagnetic field model reveals that the rate of decrease in the magnetic field at Maitri during the last century is about 105 nT/year. Maximum rate of decrease of about 120 nT/year is seen further north of this station. This result is discussed in terms of change of magnetic pole position, magnetic dipole moment and magnetic energy. It is seen that the decrease of energy in the dipole part has been, almost completely balanced by a corresponding increase in the energy of the non-dipole field. As a net result the energy of the total observed field measured all over the globe has remained almost constant. However, the magnetic moment has been found to change more rapidly at locations close to magnetic poles. Hence, the importance of continuous monitoring of total magnetic field at Maitri is emphasised.
format Article in Journal/Newspaper
author Pathan, B.M.
Dhar, Ajay
Asinkar, R.L.
Selvamurugan, R.
Hanchinal, A.N.
author_facet Pathan, B.M.
Dhar, Ajay
Asinkar, R.L.
Selvamurugan, R.
Hanchinal, A.N.
author_sort Pathan, B.M.
title Declining magnetic field at Maitri, Antarctica
title_short Declining magnetic field at Maitri, Antarctica
title_full Declining magnetic field at Maitri, Antarctica
title_fullStr Declining magnetic field at Maitri, Antarctica
title_full_unstemmed Declining magnetic field at Maitri, Antarctica
title_sort declining magnetic field at maitri, antarctica
publishDate 2009
url http://14.139.123.141:8080/jspui/handle/123456789/532
long_lat ENVELOPE(12.000,12.000,-70.083,-70.083)
ENVELOPE(11.733,11.733,-70.764,-70.764)
geographic Antarctic
Dakshin Gangotri
Indian
Maitri
geographic_facet Antarctic
Dakshin Gangotri
Indian
Maitri
genre Antarc*
Antarctic
Antarctica
genre_facet Antarc*
Antarctic
Antarctica
_version_ 1766275142799851520

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