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МОДЕЛИРОВАНИЕ ВЕКОВЫХ ГЕОМАГНИТНЫХ ВАРИАЦИЙ. ПРИНЦИПЫ И РЕАЛИЗАЦИЯ
Международный институт теории прогноза землетрясений и математической геофизики РАН
Журнал: Геофизические исследования
Том: 13
Номер: 2
Год: 2012
Страницы: 50-61
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Хохлов А.В. МОДЕЛИРОВАНИЕ ВЕКОВЫХ ГЕОМАГНИТНЫХ ВАРИАЦИЙ. ПРИНЦИПЫ И РЕАЛИЗАЦИЯ // Геофизические исследования. 2012. Т. 13. № 2. С. 50-61.
@article{ХохловМОДЕЛИРОВАНИЕ2012,
author = "Хохлов, А. В.",
title = "МОДЕЛИРОВАНИЕ ВЕКОВЫХ ГЕОМАГНИТНЫХ ВАРИАЦИЙ. ПРИНЦИПЫ И РЕАЛИЗАЦИЯ",
journal = "Геофизические исследования",
year = 2012,
volume = "13",
number = "2",
pages = "50-61",
doi = "",
language = "Russian"
}
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Ключевые слова: Главное магнитное поле Земли, палеомагнетизм, вековые вариации, гауссовские случайные процессы, статистика точек на сфере
Аннотация: МОДЕЛИРОВАНИЕ ВЕКОВЫХ ГЕОМАГНИТНЫХ ВАРИАЦИЙ. ПРИНЦИПЫ И РЕАЛИЗАЦИЯ
Список литературы: Abramovitz Μ., Stegun I. Handbook of mathematical functions with formulas, graphs, and mathematical tables. New York, 1964. 1048 p.
Bouligand C., Hulot G. Statistical palaeomagnetic field modelling ans symmetry considerations // J. Int. Geoph. 2005. V. 161. P.591-602. doi:10.1111/j.l365-246X.2005.02612.
Bouligand С., Hulot G., Khokhlov Α., Glatzmaier G.A. Statistical palaeomagnetic field modelling and dynamo numerical simulation // J. Int. Geoph. 2005. V. 161. P.603-626. doi: 10.1111/j.1365-246X.2005.02613
Constable C., Johnson C., Anisotropic paleosecular variation models: implications for geomagnetic field observables // Earth Planet. Sci. Lett. 1999. V. 115. P.35-51.
Constable C.G., Parker R.L. Statistics of the geomagnetic secular variation for the past 5 Myr // J. Geophys. Res. 1988. V. 93. P.11569-11581.
Eckhardt D.H. Correlations between global features of terrestrial fields // Math. Geol. 1984. V. 16. P.155-171
Hongre L., Hulot G., Khokhlov A. An analysis of the geomagnetic field over the past 2000 years // Phys. Earth Planet. Int. 1998. V. 106. P.311-315.
Hulot G., Le Mouël J-L. A statistical approach to the Earth's main magnetic field // Phys. Earth Planet. Int. 1994. V. 82. P.167-183.
Johnson C., Constable C. The time-averaged field as recorded by lava flows over the past 5 Myr // Geophys. J. Int. 1995. V. 122. P.489-519.
Johnson C., Constable C. The time-averaged field as recorded by lava flows over the past 5 Myr // Geophys. J. Int. 1995. V. 122. P.489-519
Johnson C., Constable C. The Time-Averaged Geomagnetic Field: Global and Regional Biases for 0-5 Ma // Geopbys. J. Int. 1997. V. 131. P.643-666.
Magnetics Information Consortium (MagIC) Promoting information technology-infrastructures for the international paleomagnetic, geomagnetic and rock magnetic community //http://earthref. org/cgi-bin/magic-sO-main.cg
Mauersberger D. Das Mitel der Energiediche des Geomagnetischen Hauptfeldes an der Erdoberflache und seine Sakulare Anderung // Gerlands Beitr. Geophys. 1956. V. 65. P.207-215.
Merrill R., McElhinny M., McFadden P. The magnetic field of the Earth. London: Academic Press, 1996. 532 p.
Press C., Teukolsky S., Vetterling W., Flannery B. Numerical Recipes in C. Second ed. Cambridge, 1996. See also http://www.ulib.org/webRoot/Books/Numerical_Recipes/bookc.html.
Press C., Teukolsky S., Vetterling W., Flannery B. Numerical Recipes in C. Second ed. Cambridge, 2004. 1004 p.
Quidelleur X., Courtillot V. On low-degree spherical harmonic models of paleosecular variation // Phys. Earth Planet. Int. 1996. V. 95. P.55-77.
Swanson-Hysell N.L., Maloof A.C, Weiss B.P., Evans D.A. No asymmetry in geomagnetic reversals recorded by 1.1-billion-year-old Keweenawan basalts // Nature Geosci. 2009. V. 2. P.713-717.
Tauxe L., Kent D.V. A simplified statistical model for the the geomagnetic field and the detection of shallow bias in paleomagnetic inclinations: was the ancient magnetic field dipolar? // Timescales of the Paleomagnetic held: Am. Geophys. Un. Monongr / Eds. J.E.Т. Channell, D.V. Kent, W. Lowrie, J. Meert. 2004. V. 145. P.101-115.
Bouligand C., Hulot G. Statistical palaeomagnetic field modelling ans symmetry considerations // J. Int. Geoph. 2005. V. 161. P.591-602. doi:10.1111/j.l365-246X.2005.02612.
Bouligand С., Hulot G., Khokhlov Α., Glatzmaier G.A. Statistical palaeomagnetic field modelling and dynamo numerical simulation // J. Int. Geoph. 2005. V. 161. P.603-626. doi: 10.1111/j.1365-246X.2005.02613
Constable C., Johnson C., Anisotropic paleosecular variation models: implications for geomagnetic field observables // Earth Planet. Sci. Lett. 1999. V. 115. P.35-51.
Constable C.G., Parker R.L. Statistics of the geomagnetic secular variation for the past 5 Myr // J. Geophys. Res. 1988. V. 93. P.11569-11581.
Eckhardt D.H. Correlations between global features of terrestrial fields // Math. Geol. 1984. V. 16. P.155-171
Hongre L., Hulot G., Khokhlov A. An analysis of the geomagnetic field over the past 2000 years // Phys. Earth Planet. Int. 1998. V. 106. P.311-315.
Hulot G., Le Mouël J-L. A statistical approach to the Earth's main magnetic field // Phys. Earth Planet. Int. 1994. V. 82. P.167-183.
Johnson C., Constable C. The time-averaged field as recorded by lava flows over the past 5 Myr // Geophys. J. Int. 1995. V. 122. P.489-519.
Johnson C., Constable C. The time-averaged field as recorded by lava flows over the past 5 Myr // Geophys. J. Int. 1995. V. 122. P.489-519
Johnson C., Constable C. The Time-Averaged Geomagnetic Field: Global and Regional Biases for 0-5 Ma // Geopbys. J. Int. 1997. V. 131. P.643-666.
Magnetics Information Consortium (MagIC) Promoting information technology-infrastructures for the international paleomagnetic, geomagnetic and rock magnetic community //http://earthref. org/cgi-bin/magic-sO-main.cg
Mauersberger D. Das Mitel der Energiediche des Geomagnetischen Hauptfeldes an der Erdoberflache und seine Sakulare Anderung // Gerlands Beitr. Geophys. 1956. V. 65. P.207-215.
Merrill R., McElhinny M., McFadden P. The magnetic field of the Earth. London: Academic Press, 1996. 532 p.
Press C., Teukolsky S., Vetterling W., Flannery B. Numerical Recipes in C. Second ed. Cambridge, 1996. See also http://www.ulib.org/webRoot/Books/Numerical_Recipes/bookc.html.
Press C., Teukolsky S., Vetterling W., Flannery B. Numerical Recipes in C. Second ed. Cambridge, 2004. 1004 p.
Quidelleur X., Courtillot V. On low-degree spherical harmonic models of paleosecular variation // Phys. Earth Planet. Int. 1996. V. 95. P.55-77.
Swanson-Hysell N.L., Maloof A.C, Weiss B.P., Evans D.A. No asymmetry in geomagnetic reversals recorded by 1.1-billion-year-old Keweenawan basalts // Nature Geosci. 2009. V. 2. P.713-717.
Tauxe L., Kent D.V. A simplified statistical model for the the geomagnetic field and the detection of shallow bias in paleomagnetic inclinations: was the ancient magnetic field dipolar? // Timescales of the Paleomagnetic held: Am. Geophys. Un. Monongr / Eds. J.E.Т. Channell, D.V. Kent, W. Lowrie, J. Meert. 2004. V. 145. P.101-115.
