Abstract
Abstract
In order to deal with IR divergences arising in QED or perturbative quantum gravity scattering processes, one can either calculate inclusive quantities or use dressed asymptotic states. We consider incoming superpositions of momentum eigenstates and show that in calculations of cross-sections these two approaches yield different answers: in the inclusive formalism no interference occurs for incoming finite superpositions and wavepackets do not scatter at all, while the dressed formalism yields the expected interference terms. This suggests that rather than Fock space states, one should use Faddeev-Kulish-type dressed states to correctly describe physical processes involving incoming superpositions. We interpret this result in terms of selection rules due to large U(1) gauge symmetries and BMS supertranslations.
Publisher
Springer Science and Business Media LLC
Subject
Nuclear and High Energy Physics
Reference46 articles.
1. F. Bloch and A. Nordsieck, Note on the Radiation Field of the electron, Phys. Rev. 52 (1937) 54 [INSPIRE].
2. D.R. Yennie, S.C. Frautschi and H. Suura, The infrared divergence phenomena and high-energy processes, Annals Phys. 13 (1961) 379 [INSPIRE].
3. S. Weinberg, Infrared Photons and Gravitons, Phys. Rev. B 140 (1965) B516.
4. D. Carney, L. Chaurette, D. Neuenfeld and G.W. Semenoff, Infrared quantum information, Phys. Rev. Lett. 119 (2017) 180502 [arXiv:1706.03782] [INSPIRE].
5. W.H. Zurek, Pointer Basis of Quantum Apparatus: Into What Mixture Does the Wave Packet Collapse?, Phys. Rev. D 24 (1981) 1516 [INSPIRE].
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