Rotation and Spin in Physics

TL;DR

This paper explores the concept of rotation and spin across various physics domains, emphasizing theoretical developments and experimental verifications of spin effects in general relativity and quantum mechanics.

Contribution

It provides a comprehensive overview of the role of spin in physics, including recent generalizations of Kepler's formula and experimental efforts to verify spin-related effects.

Findings

Generalized Kepler formula to post-Newtonian order including spin effects

Discussion of experimental verification of spin-orbit effects in general relativity

Overview of efforts to observe spin-spin effects in gravitational systems

Abstract

We delineate the role of rotation and spin in physics, discussing in order Newtonian classical physics, special relativity, quantum mechanics, quantum electrodynamics and general relativity. In the latter case, we discuss the generalization of the Kepler formula to post-Newtonian order $(c^{-2}$) including spin effects and two-body effects. Experiments which verify the theoretical results for general relativistic spin-orbit effects are discussed as well as efforts being made to verify the spin-spin effects.