Preferred-Frame and CP-Violation Tests with Polarized Electrons

Abstract

We used a torsion pendulum containing ≈ 1023 polarized electrons to search new interactions that couple to electron spin. We limit CP-violating interactions between the pendulum's electrons and unpolarized matter in the earth or the sun, test for rotation and boost-dependent preferred-frame effects using the earth's rotation and velocity with respect to the entire cosmos, and search for exotic velocity-dependent potentials between polarized electrons and unpolarized matter in the sun and moon. Finally, we find that the gravitational mass of an electron spinning toward the galactic center differs by less than about 1 part in 1021 from an electron spinning in the opposite direction. As a byproduct of this work, the density of polarized electrons in Sm Co5 was measured to be (4.19 0.19)× 1022 cm-3 at a field of 9.6 kG.