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Testing of General Relativity with Geodetic VLBI

O. Titov

Труды ИПА РАН, вып. 40, 22–27 (2017)

Ключевые слова: VLBI, Astrometry, General Relativity, IVS

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The geodetic VLBI technique is capable of measuring the Sun’s gravity light deflection from distant radio sources around the whole sky. This light deflection is equivalent to the conventional gravitational delay used for the reduction of geodetic VLBI data. While numerous tests based on a global set of VLBI data have shown that the parameter gamma of the post-Newtonian approximation is equal to unity with a precision of about 0.02 percent, more detailed analysis reveals some systematic deviations depending on the angular elongation from the Sun. In this paper a limited set of VLBI observations near the Sun were adjusted to obtain the estimate of the parameter gamma free of the elongation angle impact. The parameter gamma is still found to be close to unity with precision of 0.06 percent, two subsets of VLBI data measured at short and long baselines produce some statistical inconsistency.

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O. Titov. Testing of General Relativity with Geodetic VLBI // Труды ИПА РАН. — 2017. — Вып. 40. — С. 22–27. @article{titov2017, abstract = {The geodetic VLBI technique is capable of measuring the Sun’s gravity light deflection from distant radio sources around the whole sky. This light deflection is equivalent to the conventional gravitational delay used for the reduction of geodetic VLBI data. While numerous tests based on a global set of VLBI data have shown that the parameter gamma of the post-Newtonian approximation is equal to unity with a precision of about 0.02 percent, more detailed analysis reveals some systematic deviations depending on the angular elongation from the Sun. In this paper a limited set of VLBI observations near the Sun were adjusted to obtain the estimate of the parameter gamma free of the elongation angle impact. The parameter gamma is still found to be close to unity with precision of 0.06 percent, two subsets of VLBI data measured at short and long baselines produce some statistical inconsistency.}, author = {O. Titov}, issue = {40}, journal = {Труды ИПА РАН}, keyword = {VLBI, Astrometry, General Relativity, IVS}, pages = {22--27}, title = {Testing of General Relativity with Geodetic VLBI}, url = {http://iaaras.ru/library/paper/1674/}, year = {2017} } TY - JOUR TI - Testing of General Relativity with Geodetic VLBI AU - Titov, O. PY - 2017 T2 - Труды ИПА РАН IS - 40 SP - 22 AB - The geodetic VLBI technique is capable of measuring the Sun’s gravity light deflection from distant radio sources around the whole sky. This light deflection is equivalent to the conventional gravitational delay used for the reduction of geodetic VLBI data. While numerous tests based on a global set of VLBI data have shown that the parameter gamma of the post-Newtonian approximation is equal to unity with a precision of about 0.02 percent, more detailed analysis reveals some systematic deviations depending on the angular elongation from the Sun. In this paper a limited set of VLBI observations near the Sun were adjusted to obtain the estimate of the parameter gamma free of the elongation angle impact. The parameter gamma is still found to be close to unity with precision of 0.06 percent, two subsets of VLBI data measured at short and long baselines produce some statistical inconsistency. UR - http://iaaras.ru/library/paper/1674/ ER -