Wave-form, memory and classical soft scalar theorems
Feb 9, 2025Citations per year
0 Citations
Abstract: (arXiv)
We examine a scattering process in which a set of particles come together, interact through a long-range massless scalar force, and then disperse. We study the scalar wave-form, the scalar memory term, and classical soft scalar theorems. We derive an infinite series of subleading terms in the early- and late-time expansion of the wave-form, which depend only on the momenta and charges of the scattered particles. For two-body scattering, we obtain a resummed scalar wave-form in frequency space, as well as its resummed wave-form at early and late times. We compute the trajectories of the scattered particles, determine the trajectory coefficients, and apply the probe approximation to simplify the analysis. We then compute the scalar wave-form and extract the scalar memory term. We focus specifically on two-body scattering and employ the probe approximation to simplify the wave-form calculations. We ignore gravitational interactions and focus on the massless scalar force. We also discuss the main technical and conceptual challenges that arise when gravity is included.Note:
- 22 pages, 1 figure
References(12)
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- [11]
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