Wyn Williams, Roberto Moreno, Adrian R. Muxworthy, Greig A. Paterson, Lesleis Nagy, Lisa Tauxe, Ualisson Donardelli Bellon, Alison A. Cowan, Idenildo Ferreira
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引用次数: 0
摘要
岩石能否保存古代地磁场的可靠记录,取决于组成颗粒所含磁畴态的结构和稳定性。在古地磁研究中,戴伊图是一种很容易绘制的磁滞参数图,常用来估计样本可能的磁记录稳定性。通常情况下,样品在戴氏图区域内的变化归因于所谓的伪单域颗粒,而对其对域态或记录保真度的影响却知之甚少。在此,我们使用微磁模型来探索磁铁矿颗粒的磁滞参数,这些颗粒具有理想化的长方体和扁圆截八面体几何结构,包含单域(SD)、单涡和偶尔多涡状态。我们的研究表明,这些畴态在 Day 图中呈现出明确的趋势,从单畴区一直延伸到多畴区,所有这些畴态都可能是稳定的剩磁载体。我们认为,尽管戴伊图及其变体的解释可能会有歧义,但如果磁性矿物学是已知的,它仍然可以提供一些关于古地磁标本的主导畴态、平均粒度以及古地磁稳定性的有用信息。
Vortex Magnetic Domain State Behavior in the Day Plot
The ability of rocks to hold a reliable record of the ancient geomagnetic field depends on the structure and stability of magnetic domain-states contained within constituent particles. In paleomagnetic studies, the Day plot is an easily constructed graph of magnetic hysteresis parameters that is frequently used to estimate the likely magnetic recording stability of samples. Often samples plot in the region of the Day plot attributed to so-called pseudo-single-domain particles with little understanding of the implications for domain-states or recording fidelity. Here we use micromagnetic models to explore the hysteresis parameters of magnetite particles with idealized prolate and oblate truncated-octahedral geometries containing single domain (SD), single-vortex and occasionally multi-vortex states. We show that these domain states exhibit a well-defined trend in the Day plot that extends from the SD region well into the multi-domain region, all of which are likely to be stable remanence carriers. We suggest that although the interpretation of the Day plot and its variants might be subject to ambiguities, if the magnetic mineralogy is known, it can still provide some useful insights about paleomagnetic specimens' dominant domain state, average particle sizes and, consequently, their paleomagnetic stability.
期刊介绍:
Geochemistry, Geophysics, Geosystems (G3) publishes research papers on Earth and planetary processes with a focus on understanding the Earth as a system. Observational, experimental, and theoretical investigations of the solid Earth, hydrosphere, atmosphere, biosphere, and solar system at all spatial and temporal scales are welcome. Articles should be of broad interest, and interdisciplinary approaches are encouraged.
Areas of interest for this peer-reviewed journal include, but are not limited to:
The physics and chemistry of the Earth, including its structure, composition, physical properties, dynamics, and evolution
Principles and applications of geochemical proxies to studies of Earth history
The physical properties, composition, and temporal evolution of the Earth''s major reservoirs and the coupling between them
The dynamics of geochemical and biogeochemical cycles at all spatial and temporal scales
Physical and cosmochemical constraints on the composition, origin, and evolution of the Earth and other terrestrial planets
The chemistry and physics of solar system materials that are relevant to the formation, evolution, and current state of the Earth and the planets
Advances in modeling, observation, and experimentation that are of widespread interest in the geosciences.