The magnetic daily variation in Australia: dependence of the total-field signal on latitude

Adrian Hitchman; F.E.M. (Ted) Lilley; Wallace Campbell; Francois Chamalaun; Charles Barton

doi:10.1071/EG998428

ISSN: 0812-3985
E-ISSN: 1834-7533

The magnetic daily variation in Australia: dependence of the total-field signal on latitude
Authors Adrian Hitchman^a, F.E.M. (Ted) Lilley^b, Wallace Campbell^c, Francois Chamalaun^d and Charles Barton^e
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^a Research School of Earth Sciences, Australian National University, , Canberra, , ACT 0200, . Phone: (02) 6249 3424, Fax: (02) 6249 0738, Email: [email protected] ^b Research School of Earth Sciences, Australian National University, , Canberra, , ACT 0200, . Phone: (02) 6249 4174, Fax: (02) 6249 0738, Email: [email protected] ^c World Data Center A, Solar-Terrestrial Physics, , NGDC/NOAA Mailstop EGC2, 325 Broadway, Boulder, Colorado, 80303-3328, , USA, Phone: (+303) 497 6093, Fax: (+303) 497 6513, Email: [email protected] ^d School of Earth Sciences. Flinders University of South Australia, , PO Box 2100, Adelaide, , SA 5001, . Phone: (08) 8201 2319, Fax: (08) 8201 2676, Email: [email protected],edu.au ^e Australian Geological Survey Organisation, , GPO Box 378, Canberra, , ACT 2601, . Phone: (02) 6249 9611, Fax: (02) 6249 9986, Email: [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: Exploration Geophysics, Volume 29, Issue 3-4, Sep 1998, p. 428 - 432
DOI: https://doi.org/10.1071/EG998428
- Published online: 01 Sep 1998

Abstract

The quiet daily magnetic variation, denoted Sq, occurs as a background signal during magnetic surveying. The morphology of Sq is dependent on a number of factors, particularly latitude. Type curves that describe the latitudinal dependence of the horizontal and vertical components of Sq on a global scale appear in many texts. This paper first describes a recent compilation of global Sq curves for the total magnetic field, which is the component of most relevance to magnetic mapping.

An analysis is then made of total-field variations from a north-south line of stationary recording magnetometers which operated across central Australia as part of the AWAGS experiment of 1989-1990. These data are analysed for information on the magnetic daily variation across the Australian continent, particularly its latitudinal variation. Observations cover a full year and their analysis is divided into four seasons to show variation with season as well as with latitude. The observed data show a minimum in the total-field signal in the geomagnetic latitude band 20°–30°, in support of the global Sq total-field curves. There is also clear evidence in the AWAGS data for the path of the Sq focus across Australia, identified by an amplitude minimum in the daily variation of the horizontal magnetic north component. The band in which the total-field Sq variations are generally reduced is termed the total-field “doldrums”; this band is on the equator-side of the path of the Sq focus.

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References

Bennett, D.J. and Lilley, F.E.M., 1973, An array study of daily magnetic variations in southeast Australia: J. Geomag. Geoelectr., 25, 39–62.
Campbell, W.H., 1997, Introduction to Geomagnetic Fields: Cambridge Univ. Press.
Campbell, W.H., Schiffmacher, E.R. and Kroehl, H.W., 1989, Global quiet day field variation model WDCA/SQ1: Eos (Trans, Am. Geophys. Union), 70, 66 and 74.
Campbell, W.H., Barton, C.E., Chamalaun, F.H. and Welsh, W. D., 1998, Quiet-day ionospheric currents and their application to upper mantle conductivity in Australia: Earth, Planets and Space (formerly J. Geomag. Geoelectr.), 50, 347–360.
Chamalaun, F.H. and Barton, C.E., 1993, Electromagnetic induction in the Australian crust: results from the Australia-wide array of geomagnetic stations: Expl. Geophys., 24, 179–186.
Egedal, J., 1967, The magnetic diurnal variation of the horizontal force near the magnetic equator: Terrest. Magnet. Atmosph. Electr., 52, 449–451.
Hitchman, A.P., Lilley, F.E.M. and Campbell, W.H., 1998, The quiet daily variation in the total magnetic field: global curves: Geophys. Res. Lett., 25, 2007–2010.
Lilley, F.E.M., 1982, Geomagnetic field fluctuations over Australia in relation to magnetic surveys: Bull. Austral. Soc. Expl. Geophys., 13, 68–76.
Lilley, F.E.M. and Parker, R.L., 1976, Magnetic daily variations compared between the east and west coasts of Australia: Geophys. J. Roy. Astr. Soc., 44, 719–724.
Lilley, F.E.M., Hitchman, A.P. and Wang, L.J., 1998, Time-varying effects in magnetic mapping: amphidromes, doldrums and induction hazard: Geophysics, submitted.
McEwin, A.J., 1993, Epoch 1990.0 - Epoch charts of the geomagnetic field in the Australian region, Australian Geological Survey Organisation.
Parkinson, W.D., 1983, Introduction to Geomagnetism: Scottish Academic Press.
Stening, R.J. and Hopgood, P.A., 1991, Geomagnetic quiet daily variations in the Australian region - information from a new station at Charters Towers (20.1°S): J. Atmosph. & Terrest. Phys., 53, 959–964.

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Article Type: Research Article

Keyword(s): daily magnetic variation; diurnal; magnetic mapping; Sq; total magnetic field

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The magnetic daily variation in Australia: dependence of the total-field signal on latitude

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