Litcius/Paper detail

Conservative Spin-Magnitude Change in Orbital Evolution in General Relativity

Mark Alaverdian, Zvi Bern, Dimitrios Kosmopoulos, Andrés Luna, Radu Roiban, Trevor Scheopner, Fei Teng

2025Physical Review Letters15 citationsDOIOpen Access PDF

Abstract

We show that physical scattering observables for compact spinning objects in general relativity can depend on additional degrees of freedom in the spin tensor beyond those described by the spin vector alone. The impulse, spin kick, and leading-order waveforms exhibit such a nontrivial dependence. A signal of this additional structure is the change in the magnitude of the spin vector under conservative Hamiltonian evolution, similar to our previous studies in electrodynamics. These additional degrees of freedom describe dynamical mass multipoles of compact objects and decouple for black holes. We also show that the conservative impulse, spin kick, and change of the additional degrees of freedom are encoded in the eikonal phase.

Topics & Concepts

Magnitude (astronomy)PhysicsTheory of relativitySpin (aerodynamics)Theoretical physicsAstrophysicsThermodynamicsPulsars and Gravitational Waves ResearchAstrophysical Phenomena and ObservationsGamma-ray bursts and supernovae