德国慕尼黑大学Lhuillier, Florian研究组报道了在古地磁记录中探测地磁场的偶极。相关论文于2023年6月12日发表在《美国科学院院刊》杂志上。
为了更好地限制古地磁记录的预测能力,研究人员提出了一种基于分析地磁场强度和倾斜(水平线与磁力线所成的角度)之间的相关性分析的方法。基于统计场模型的结果,研究表明这两个量应该与大范围的类地磁场相关,即使有增强的长期变化、持续的非区域成分和和严重的噪音污染。研究数据显示,着眼于古地磁的记录,这种相关性对于 Brunhes 极性年代并不显著,研究人员将其归因于不充分的时空采样。相比之下,这种相关性在 1到130 Ma 的时间间隔中比较有意义,而在130 Ma 之前,对古强度和古方向都进行严格的过滤时,只存在略微的相关性。
Title: Detecting dipolarity of the geomagnetic field in the paleomagnetic record
Author: Lhuillier, Florian, Shcherbakov, Valeriy P., Sycheva, Natalia K.
Issue&Volume: 2023-6-12
Abstract: Recovering the geomagnetic field strength in the past is key to understanding deep Earth dynamics and detecting potential geodynamo regimes throughout the history of Earth. To better constrain the predictive power of the paleomagnetic record, we propose an approach based on the analysis of the dependency between geomagnetic field strength and inclination (angle made by the horizontal with the field lines). Based on the outcomes of statistical field models, we show that these two quantities should correlate for a wide range of Earth-like magnetic fields, even with enhanced secular variation, persistent nonzonal components, and severe noise contamination. Focusing on the paleomagnetic record, we show that the correlation is not significant for the Brunhes polarity chron, what we ascribe to inadequate spatiotemporal sampling. In contrast, the correlation is significant for the 1 to 130 Ma interval, whereas it only marginally succeeds prior to 130 Ma when strict filters on both paleointensities and paleodirections are applied. As we cannot detect significant variations in the strength of the correlation over the 1 to ng potential geodynamo regimes during the Precambrian is currently impeded by the sparsity of high-quality data passing strict filters in both paleointensities and paleodirections.
DOI: 10.1073/pnas.2220887120
Source: https://www.pnas.org/doi/10.1073/pnas.2220887120