Spin is one fundamental property of microscopic particles. A lot of theoretical work postulated the possible coupling between spin and gravitation, which could result in the violation of equivalence principle. In a recent joint mass-and-energy test of weak equivalence principle (WEP) with a 10-meter $^{85}$Rb-$^{87}$Rb dual-species atom interferometer, the E${\rm \ddot{o}}$tv${\rm \ddot{o}}$s parameters of four $^{85}$Rb-$^{87}$Rb combinations with specific atomic spin states were measured to the $10^{-10}$-level. These experimental results are used to constrain the postulated spin-gravity coupling effects in a robust way. The bounds on the spin-independent and spin-dependent anomalous passive gravitational mass tensors are consistently set to the $10^{-10}$-level, which improve existing bounds by three orders of magnitude.
Comment: 4 pages, 2 figures