Hostname: page-component-7479d7b7d-qlrfm Total loading time: 0 Render date: 2024-07-11T13:19:06.605Z Has data issue: false hasContentIssue false
  • English
  • Français

Earth Rotation Information Derived from Merit and Polaris VLBI Observations

Published online by Cambridge University Press:  12 April 2016

D. S. Robertson  and
W. E. Carter
D. S. Robertson
Affiliation:
National Geodetic Survey, National Ocean Survey, NOAA Rockville, Maryland 20852U.S.A.
W. E. Carter
Affiliation:
National Geodetic Survey, National Ocean Survey, NOAA Rockville, Maryland 20852U.S.A.

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

In September and October 1980, the National Geodetic Survey, jointly with the National Aeronautics and Space Administration and several other agencies and institutions, conducted a series of astronomical radio interferometry (VLBI) observing sessions to support the IAU/IUGG MERIT short campaign. A total of 14 days of observations, organized into two 7-day sessions, was collected by three observatories in the United States (Harvard Radio Astronomy Station (HRAS), Haystack Observatory, and Owens Valley Radio Observatory) and the Onsala Space Observatory in Sweden. Chilbolton Observatory, England, and Effelsberg Observatory, West Germany, also participated on some days. Immediately following the MERIT campaign, NGS initiated a series of 24-hour observing sessions, spaced at approximately 2-week intervals, as a pilot program to project POLARIS. All of these sessions included two observatories, HRAS and Haystack, and Onsala participated in about half of the sessions. The MERIT and POLARIS observations were made with the third generation MARK III VLBI system using procedures and schedules designed to yield high quality geodetic information, including Earth rotation values. This paper briefly traces the planning, observing, and data processing activities, and presents the Earth rotation information thus far derived from the data.

Type
Part I
Information
International Astronomical Union Colloquium , Volume 63: High-Precision Earth Rotation and Earth-Moon Dynamics , May 1981 , pp. 97 - 122
Copyright
Copyright © Reidel 1982

References

Carter, W.E., and Strange, W. E., “The National Geodetic Survey Project POLARIS,” Tectonophysics, 52, 3946, 1979.Google Scholar
Carter, W.E., Robertson, D. S., and Abell, M. D., “An Improved Polar Motion and Earth Rotation Monitoring Service Using Radio Interferometry,” in Time and the Earth’s Rotation, McCarthy, D.D. and Pilkington, J. D., (eds.), D. Reidel Co., Dordrecht, Holland, 191197, 1979.Google Scholar
Carter, W.E., “Project POLARIS: a Status Report,” in Radio Interferometry Techniques for Geodesy, NASA Conference Publication 2115, 455460, 1979.Google Scholar
Clark, T.A., Counselman, C. C., Ford, P.G., Hanson, L.B., Hinteregger, H. F., Klepczynski, W.J., Knight, C.A., Robertson, D.S., Rogers, A. E. E., Ryan, J.W., Shapiro, I.I., and Whitney, A. R., “Synchronization of Clocks by Very-Long-Baseline Interferometry,” IEEE Transactions on Instrumentation and Measurement, 1979.Google Scholar
Herring, T.A., Corey, B. E., Counselman, C.C. III, Shapiro, I.I., Ronnang, B. O., Rydbeck, O. E. H., Clark, T.A., Coates, R.J., Ma, C., Ryan, J.W., Vandenberg, N.R., Hinteregger, H.F., Knight, C.A., Rogers, A. E. E., Whitney, A.R., Robertson, D.S., and Shupler, B. R., “Geodesy by Radio Interferometry: Intercontintental Distance Determinations with Subdecimeter Precision,” J. Geophys. Res., 86, 16471651, 1981.Google Scholar
Marini, J., private communication, 1974.Google Scholar
Robertson, D.S., Carter, W. E., Corey, B.E., Cotton, W.D., Counselman, C. C., Shapiro, I. I., Wittels, J.J., Hinteregger, H.F., Knight, C. A., Rogers, A. E. E., Whitney, A. R., Ryan, J.W., Clark, T.A., Coates, R.J., Ma, C., and Moran, J. M., “Recent Results of Radio Interferometric Determinations of a Transcontinental Baseline, Polar Motion, and Earth Rotation,” in Time and the Earth’s Rotation, McCarthy, D. D. and Pilkington, J. D., (eds.), D. Reidel Co., Dordrecht, Holland, 217224, 1979a.Google Scholar
Robertson, D.S., Clark, T. A., Coates, R.J., Ma, C., Ryan, J.W., Corey, B. E., Counselman, C. C., King, R. W., Shapiro, I. I., Hinteregger, H. F., Knight, C. A., Rogers, A. E. E., Whitney, A. R., Pigg, J. C., Shupler, B. R., “Polar Motion and UT1: Comparison of VLBI, Lunar Laser, Satellite Laser, Satellite Doppler, and Conventional Astrometric Determinations”, in Radio Interferometry Techniques for Geodesy, NASA Conference Publication 2115, 3344, 1979b.Google Scholar
Rogers, A. E. E., “Very-Long-Baseline Interferometry with Large Effective Bandwidth for Phase-Delay Measurements,” Radio Science 5, 1239-1247, 1970.Google Scholar
Shapiro, I.I., “Estimation of Astrometric and Geodetic Parameters,” in Methods of Experimental Physics, Meeks, M. L., (ed.), 12, part C, Academic Press, pp 261266, 1976.Google Scholar
Woolard, E.W., Astronomical Journal, 64, 140142, 1959.Google Scholar