Journal ArticleDOI
The dispersion of the geomagnetic field due to secular variation and its determination for remote times from paleomagnetic data
TLDR
In this article, the amount of dispersion produced by the paleosecular variation in the magnetization of a rock formation against the background of noise due to experimental errors, partial remagnetization, subsequent tectonic movement, etc.Abstract:
In studies of the paleosecular variation the situation often arises that, although a number of spot readings of the paleogeomagnetic field have been deduced from the fossil magnetization of a rock formation, their stratigraphic sequence is unknown. Hence, in this paper, methods are discussed of deducing the amount of dispersion produced by the paleosecular variation in the magnetization of a rock formation against the background of noise due to experimental errors, partial remagnetization, subsequent tectonic movement, etc. The secular variation recorded at observatories and field stations during the past few centuries does not cover the full range of dispersion of the geomagnetic field in time, and models are considered by means of which this may be estimated. Angular dispersion factors are defined and have been calculated for three models and found to be of the same magnitude as those calculated from various rock formations. Other calculations for these models predict that the secular variation dispersion depends on latitude, and data from a number of igneous rock formations appear to confirm this prediction. It is not possible, however, to calculate the dispersion due to the paleosecular variation from the large body of paleomagnetic data tabulated by various authors, since these data have been computed in different ways.read more
Citations
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Journal ArticleDOI
Reversals of the Earth's magnetic field and temporal variations of the dynamo families
TL;DR: In this article, a recent model for polarity reversals suggested that reversals involve critical interactions between the primary (dipole) and secondary (quadrupole) dynamo families.
Journal ArticleDOI
Lengths of geomagnetic polarity intervals
TL;DR: In this article, a probability model based on the theory of Bernouli trials was proposed to analyze variations in the lengths of geomagnetic polarity, intervals are analyzed by means of the probability that a polarity inversion will occur during one cycle of change in the geOMagnetic dipole moment.
Journal ArticleDOI
Geomagnetic secular variation and the statistics of palaeomagnetic directions
TL;DR: In this paper, the role of palaeosecular variation (PSV) in the use of statistics for palaeomagnetic studies is examined and new reliability criteria for the reliability of a data set are provided.
Journal ArticleDOI
Confidence Limits for the Precision Parameter k
TL;DR: In this article, confidence limits for the precision parameter k used in the analysis of palaeomagnetic data and for the angular standard deviation σ were calculated for 95 per cent and 99 per cent confidence limits.
Journal ArticleDOI
Paleomagnetic study of antarctic deep-sea cores.
TL;DR: It is concluded that paleomagnetic stratigraphy is a unique method for correlating and dating deep sea cores, and that future work with such cores may provide a complete or nearly complete record of the history of the earth's magnetic field beyond 4 million years.
References
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Journal ArticleDOI
Dispersion on a Sphere
TL;DR: In this article, the authors developed a form of theory which appears to be appropriate to measurements of position on a sphere and demonstrated the simultaneous distribution of the amplitude and direction of the vector sum of a number of random unit vectors of given precision.
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The stability and significance of magnetism in sedimentary rocks
TL;DR: In this paper, the angular relations of the directions of residual magnetization to the bedding in deformed structures, or in beds that were laid down in a random manner, were investigated.
Journal ArticleDOI
The remanent magnetism of artificially deposited sediments
TL;DR: In this paper, a tentative theory of the effect of slope is put forward which accounts almost quantitatively for the experimental results and in addition leads to a qualitative explanation of bottom currents.
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The westward drift of the Earth's magnetic field
TL;DR: In this article, the authors investigated the westward drift of the non-dipole part of the earth's magnetic field and of its secular variation for the period 1907-45 and the uncertainty of the results discussed.
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Review of Paleomagnetism
Allan Cox,Richard R. Doell +1 more
TL;DR: In this paper, the authors present a review of all available paleomagnetic measurements available to the authors, with a key to the summary table and illustrations in English and Russian, with special emphasis on statistical methods and on the evidence and tests for magnetic stability and applicability, concluding that the earth9s average magnetic field, throughout Oligocene to Recent time, has very closely approximated that due to a dipole at the center of the earth oriented parallel to the present axis of rotation.