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w1+∞ in 4D gravitational scattering
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Abstract
In four-dimensional asymptotically flat spacetimes, an infinite tower of soft graviton modes is known to generate the symmetry algebra of w1+∞
at tree-level. Here we demonstrate that the symmetry action follows from soft graviton theorems and acts non-trivially on massive scalar particles. By generalizing previous analyses that were specifically tailored to the scattering of massless particles, our results clarify that w1+∞
symmetry is a universal feature of tree-level gravitational scattering in four-dimensional asymptotically flat spacetimes and originates from minimally-coupled gravitational interactions. In addition, we show that the w1+∞
symmetry acts non-diagonally on massive states by mixing an infinite number of conformal families. We also present a concrete example of non-local behavior on the celestial sphere in the presence of massive scattering states.
Springer Science and Business Media LLC
Title: w1+∞ in 4D gravitational scattering
Description:
Abstract
In four-dimensional asymptotically flat spacetimes, an infinite tower of soft graviton modes is known to generate the symmetry algebra of w1+∞
at tree-level.
Here we demonstrate that the symmetry action follows from soft graviton theorems and acts non-trivially on massive scalar particles.
By generalizing previous analyses that were specifically tailored to the scattering of massless particles, our results clarify that w1+∞
symmetry is a universal feature of tree-level gravitational scattering in four-dimensional asymptotically flat spacetimes and originates from minimally-coupled gravitational interactions.
In addition, we show that the w1+∞
symmetry acts non-diagonally on massive states by mixing an infinite number of conformal families.
We also present a concrete example of non-local behavior on the celestial sphere in the presence of massive scattering states.
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