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On the exactness of soft theorems

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arxiv 1705.10078 v2 pith:AZKJHJAI submitted 2017-05-29 hep-th

On the exactness of soft theorems

classification hep-th
keywords softtheoremsexactnesssupersymmetrytheorytypealpha
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Soft behaviours of S-matrix for massless theories reflect the underlying symmetry principle that enforces its masslessness. As an expansion in soft momenta, sub-leading soft theorems can arise either due to (I) unique structure of the fundamental vertex or (II) presence of enhanced broken-symmetries. While the former is expected to be modified by infrared or ultraviolet divergences, the latter should remain exact to all orders in perturbation theory. Using current algebra, we clarify such distinction for spontaneously broken (super) Poincar\'e and (super) conformal symmetry. We compute the UV divergences of DBI, conformal DBI, and A-V theory to verify the exactness of type (II) soft theorems, while type (I) are shown to be broken and the soft-modifying higher-dimensional operators are identified. As further evidence for the exactness of type (II) soft theorems, we consider the alpha' expansion of both super and bosonic open strings amplitudes, and verify the validity of the translation symmetry breaking soft-theorems up to O(alpha'^6). Thus the massless S-matrix of string theory "knows" about the presence of D-branes.

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Cited by 2 Pith papers

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  1. Tree and $1$-loop fundamental BCJ relations from soft theorems

    hep-th 2023-05 unverdicted novelty 7.0

    Derives the fundamental BCJ relation at tree level from soft theorems in bi-adjoint scalar theory, generalizes it to 1-loop integrands, and uses it to explain Adler zeros in other scalar theories.

  2. Tree level amplitudes from soft theorems

    hep-th 2022-12 unverdicted novelty 5.0

    Tree-level amplitudes for Yang-Mills-scalar, pure Yang-Mills, Einstein-Yang-Mills and gravitational theories are reconstructed from soft theorems, universality of soft factors and double copy, with explicit soft facto...