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Conservative and dissipative sectors in a nonlinear scalar model for the gravitational self-force problem

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abstract

When considering how self-interaction affects an object's motion, it can be convenient to decompose the self-force into conservative and dissipative pieces. As a toy model for understanding such decompositions of the gravitational self-force, we consider objects that do not affect the spacetime, but are instead coupled to a nonlinear scalar field. There is then a standard splitting of the first-order scalar self-force into conservative and dissipative components. Multiple criteria can be used to obtain this splitting, all of which imply the same result. However, the implications of these criteria generically differ at higher orders. Demanding that any reasonable conservative sector be Hamiltonian, we identify multiple possible definitions of the conservative second-order self-force. Motivations for these possibilities and their properties are discussed and relevant Hamiltonians are obtained. We assume the existence of a three-point function with certain properties that is a generalization of the Detweiler-Whiting two-point function. These results apply to the two-body problem but are restricted to unbound scattering trajectories, due to infrared divergences that arise for bound orbits.

fields

gr-qc 1

years

2026 1

verdicts

UNVERDICTED 1

representative citing papers

Self-force on a static scalar charge in traversable wormholes

gr-qc · 2026-06-28 · unverdicted · novelty 6.0

Mode-sum computation of static scalar self-force in Konoplya-Zhidenko wormholes shows parameter-dependent sign changes and slower-than-usual large-distance decay for large redshift parameter p.

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  • Self-force on a static scalar charge in traversable wormholes gr-qc · 2026-06-28 · unverdicted · none · ref 19 · internal anchor

    Mode-sum computation of static scalar self-force in Konoplya-Zhidenko wormholes shows parameter-dependent sign changes and slower-than-usual large-distance decay for large redshift parameter p.