Behind the curve: a comparison of historical sources for the Carnegie curve of the global atmospheric electric circuit

IF 0.5 4区哲学 Q4 GEOSCIENCES, MULTIDISCIPLINARY History of Geo- and Space Sciences Pub Date : 2020-09-11 DOI:10.5194/hgss-11-207-2020

R. Harrison

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引用次数: 9

Abstract

Abstract. The “Carnegie curve” describes the diurnal variation of the global atmospheric electric circuit. It was originally found from atmospheric electric potential gradient (PG) measurements made on the Carnegie, effectively a floating atmospheric electrical observatory, which undertook global cruises between 1915 and 1929. These measurements confirmed that the single diurnal cycle PG variation, previously obtained in both polar regions, was global in extent. The averaged diurnal PG variation, represented by derived harmonic fits, provides a characteristic variation known as the “Carnegie curve”, against which modern measurements are still compared. The ocean air PG measurements were extensively described in reports of the Carnegie Institution of Washington (CIW) but widely used secondary sources of the Carnegie curve contain small differences, arising through approximations and transcription errors. Investigations using the historical CIW data show that the original harmonic fit coefficients are reproducible. Despite the inconsistencies, the secondary sources nevertheless mostly yield diurnal variations which fall within the variability of the original historical data.

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曲线背后：全球大气电路卡内基曲线的历史来源比较

摘要“卡内基曲线”描述了全球大气电路的日变化。它最初是从卡内基的大气电势梯度（PG）测量中发现的，该天文台在1915年至1929年间进行了全球巡航。这些测量结果证实，先前在两极地区获得的单个昼夜周期PG变化是全局不精确的。由导出的调和系数表示的平均日PG变化提供了一种被称为“卡内基曲线”的特征变化，现代测量仍与之进行比较。CarnegieInstitution of Washington（CIW）的报告中对海洋空气PG测量进行了广泛描述，但广泛使用的Carnegie曲线的二次源包含较小的差异，这是由于近似和转换误差引起的。使用历史CIW数据进行的研究表明，原始谐波拟合系数是可重复的。尽管存在一致性，但次要来源大多产生内部变量，这些变量属于原始历史数据的可变性范围。

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来源期刊

History of Geo- and Space Sciences GEOSCIENCES, MULTIDISCIPLINARY-HISTORY & PHILOSOPHY OF SCIENCE

CiteScore

1.50

自引率

33.30%

发文量

审稿时长

50 weeks

期刊介绍： The scope of History of Geo- and Space Sciences (HGSS) is to document historical facts and knowledge and to improve awareness of the history of geoscience. The knowledge of the development of geosciences and their experimental methods and theories in the past can improve our current understanding and may stimulate current research. It is encouraging for young scientists to read biographical material of historical figures in their research area. It is important as well to learn that history of science is an integrated part of the ongoing research in their research area. Another important aim of the journal is the association of historical retrospective and current research.