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Comparison of earth rotation as inferred from radio interferometric, laser ranging and astrometric observations (1983)

Shapiro, I. I. ; Schutz, B. E. ; Tapley, B. D. ; [et al.]

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Publication Date: 2019-06-28

Description: Results of measurements of the earth's rotation vector for a 400-day period from late September 1980 to December 1981, for which date from VLBI, satellite laser ranging (SLR), and lunar laser ranging (LLR) were available, are compared. The acquisition of the data and their evaluation are described. VLBI, SLR, and classical astrometric determinations of the X-parameter required to describe the location of the rotation pole on the earth's surface are shown, and VLBI, LLR, and classical astrometric determinations of the angle of rotation about this pole (UT1) are presented. The results indicate that VLBI and SLR, at their present stages of development, yield standard errors under 20 cm in the determinations of X, about twofold smaller than obtained from classical measurements, and that VLBI and LLR yield determination of UT1 with standard errors less than 40 cm, somewhat smaller than that of the corresponding determinations from classical observations. Methods for improving these types of intercomparisons are suggested.

Keywords: GEOPHYSICS

Type: Nature (ISSN 0028-0836); 302; April 7

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Atmospheric angular momentum and the length of day - A common fluctuation with a period near 50 days (1981)

King, R. W. ; Salstein, D. A. ; Langley, R. B. ; [et al.]

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Publication Date: 2019-06-28

Description: Four astronomical measures of changes in the length of day obtained in 1979 have been shown to exhibit the same, approximately 50-day fluctuation. To find whether this fluctuation was persistent, and of meteorological origin, lunar laser ranging observations and wind data deduced from sources distributed over the globe were analyzed. A high degree of correlation was found between the two sets of data. It is implied that the 50-day period fluctuations in length of day are real and related to meteorological effects. Observed changes in length of day can provide a constraint for models for atmospheric flow, and a partial check for global analyses of such motions.

Keywords: GEOPHYSICS

Type: Nature; 294; Dec

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Earth rotation from lunar laser ranging (1981)

King, R. W. ; Langley, R. B. ; Shapiro, I. I.

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Publication Date: 2019-06-28

Description: Since the time when the first laser retroreflector was placed on the lunar surface by the Apollo 11 astronauts, lunar laser ranging (LLR) has led to advances in a wide range of disciplines, including the study of variations in the rotation of the earth. The conventional techniques used to monitor earth rotation suffer from lack of precision on time scales of a few months and less. LLR, by contrast, makes it possible to monitor small changes in earth rotation with a temporal resolution of the order of 1 day. Studies of earth rotation by LLR are discussed, taking into account data sensitivity, aspects of data analysis, the variation of latitude, and UTO, the mean solar time at the site as affected by polar motion.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 86; Dec. 10

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