水文、大气和海洋对钱德勒摆动的激发 Hydrological, Atmospheric and Oceanic Excitations of Chandler Wobble期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

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水文、大气和海洋对钱德勒摆动的激发

引用本文：	廖德春,廖新浩,周永宏,陈剑利.水文、大气和海洋对钱德勒摆动的激发[J].天文学报,2004,45(1):48-56.

作者姓名：	廖德春廖新浩周永宏陈剑利

作者单位：	1. 中国科学院上海天文台,上海,200030;中国科学院国家天文台,北京,100012 2. Center for Space Research,University of Texas at Austin TX 78712 USA

基金项目：	国家自然科学基金重点项目(10133010)，自然科学基金项目(10273018)资助

摘要：	分析计算了由陆地上土壤湿度和积雪水当量变化引起的水文变化对钱德勒摆动的激发作用，并将其和大气、海洋激发一起与天文观测激发作了比较．结果表明，虽然水文激发在钱德勒频带上的激发能量很小，只能解释观测激发的平均能量约10％，但是在大气激发的基础上增加水文变化的激发作用，显著提高了与观测激发的相干系数和置信度水平．因此，水文变化对钱德勒摆动的激发作用是值得重视的激发因素之一．
关键词：	天体测量地球自转钱德勒摆动激发作用
修稿时间：	2003年3月13日
Hydrological, Atmospheric and Oceanic Excitations of Chandler Wobble

LIAO De-Chun LIAO Xin-Hao ZHOU Yong-Hong CHEN Jian-Li.Hydrological, Atmospheric and Oceanic Excitations of Chandler Wobble[J].Acta Astronomica Sinica,2004,45(1):48-56.

Authors:	LIAO De-Chun LIAO Xin-Hao ZHOU Yong-Hong CHEN Jian-Li

Abstract:	It is to compute hydrological excitation of Chandler wobble due to variation of soil moisture and water which is equivalent snow depth over land and to compare the result, together with atmospheric and to oceanic excitations, with astronomical observations. The result shows that the average energy of hydrological excitation in Chandler wobble frequency band is relatively smaller and can explain only about 10% of observed excitation. However, the combination of hydrological excitation with atmospheric excitation can evidently increase the squared coherence between observed excitation and combined excitation, and raise the confident threshold of the coherence analysis. Therefore, the continental water storage change is also an important contributor to Chandler wobble excitation.

Keywords:	astrometry earth's rotation Chandler wobble
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