Preliminary limits on deviation from the inverse-square law of gravity in the solar system:a power-law parameterization  

作　　者：Meng-Yao Liu Ze-Hao Zhong Yi-Chen Han Xiao-Yu Wang Zong-Shui Yang Yi Xie 

机构地区：[1]School of Astronomy and Space Science,Nanjing University [2]Key Laboratory of Modern Astronomy and Astrophysics,Nanjing University,Ministry of Education

出　　处：《Research in Astronomy and Astrophysics》2014年第8期1019-1028,共10页天文和天体物理学研究（英文版）

基　　金：funded by the National Natural Science Foundation of China (Grant Nos. 11103010 and J1210039);the Fundamental Research Program of Jiangsu Province of China (No. BK2011553);the Research Fund for the Doctoral Program of Higher Education of China (No. 20110091120003)

摘　　要：New physics beyond the standard model of particles might cause a deviation from the inverse-square law of gravity. In some theories, it is parameterized by a power-law correction to the Newtonian gravitational force, which might originate from the simultaneous exchange of particles or modified and extended theories of gravity. Using the supplementary advances of the perihelia provided by INPOP 10a （IMCCE, France） and EPM2011 （IAA RAS, Russia） ephemerides, we obtain preliminary limits on this correction. In our estimation, we take the Lense-Thirring effect due to the Sun＇s angular momentum into account. The parameters of the power-law correction and the uncertainty of the Sun＇s quadrupole moment are simultaneously estimated with the method of minimizing X2. From INPOP10a, we find N - 0.605 for the exponent of the power-law correction. However, from EPM2011, we find that, although it yields N = 3.001, the estimated uncertainty in the Sun＇s quadrupole moment is much larger than the value given by current observations. This might be caused by the intrinsic nonlinearity in the power-law correction, which makes the estimation very sensitive to the supplementary advances of the perihelia.New physics beyond the standard model of particles might cause a deviation from the inverse-square law of gravity. In some theories, it is parameterized by a power-law correction to the Newtonian gravitational force, which might originate from the simultaneous exchange of particles or modified and extended theories of gravity. Using the supplementary advances of the perihelia provided by INPOP 10a （IMCCE, France） and EPM2011 （IAA RAS, Russia） ephemerides, we obtain preliminary limits on this correction. In our estimation, we take the Lense-Thirring effect due to the Sun＇s angular momentum into account. The parameters of the power-law correction and the uncertainty of the Sun＇s quadrupole moment are simultaneously estimated with the method of minimizing X2. From INPOP10a, we find N - 0.605 for the exponent of the power-law correction. However, from EPM2011, we find that, although it yields N = 3.001, the estimated uncertainty in the Sun＇s quadrupole moment is much larger than the value given by current observations. This might be caused by the intrinsic nonlinearity in the power-law correction, which makes the estimation very sensitive to the supplementary advances of the perihelia.

关 键 词：gravitation- ephemerides- celestial mechanics 

分 类 号：P182[天文地球—天文学]