The SAGEX Review on Scattering Amplitudes, Chapter 5: Analytic Bootstraps for Scattering Amplitudes and Beyond

Abstract: One of the main challenges in obtaining predictions for collider experiments from perturbative quantum field theory, is the direct evaluation of the Feynman integrals it gives rise to. In this chapter, we review an alternative bootstrap method that instead efficiently constructs physical quantities by exploiting their analytic structure. We present in detail the setting where this method has been originally developed, six-and seven-particle amplitudes in the large-color limit of N = 4 super Yang-Mills theory. … Show more

“…Applications within effective field theories that utilise all the different solving and simplification tools introduced in this section, as notably the post-Newtonian expansion of classical (non-linear) Einstein gravity, are given to five-loop order. [5] One of the main challenges in obtaining predictions for collider experiments from quantum field theory, is the evaluation of the Feynman integrals resulting from its traditional perturbative treatment. In this chapter, we review an alternative bootstrap method that bypasses this formidable task by constructing physical quantities from the knowledge of their expected analytic structure.…”

The SAGEX review on scattering amplitudes*

“…Applications within effective field theories that utilise all the different solving and simplification tools introduced in this section, as notably the post-Newtonian expansion of classical (non-linear) Einstein gravity, are given to five-loop order. [5] One of the main challenges in obtaining predictions for collider experiments from quantum field theory, is the evaluation of the Feynman integrals resulting from its traditional perturbative treatment. In this chapter, we review an alternative bootstrap method that bypasses this formidable task by constructing physical quantities from the knowledge of their expected analytic structure.…”

The SAGEX review on scattering amplitudes*

“…As reviewed in chapter 5 of this SAGEX review [86], the meaning of the symbol alphabet S [80] is that every function F in the corresponding function space has a 'd log' derivative structure with a finite number of terms, dF =…”

“…In some cases the multi-Regge limit has been used to constrain the bootstrap ansatz; however, the information used is self-consistent, in the sense that it only requires loop orders in the BFKL eigenvalue and the impact factor that are already determined by the amplitude at the previous loop order. See chapter 5 [86] of the SAGEX review [87] for more details about the amplitude bootstrap.…”

The SAGEX review on scattering amplitudes Chapter 15: The multi-Regge limit

“…Then a reduced set of integrals appear, but the difficult problem remains of carrying out the integrals themselves, in terms of known functions. In recent years, this has generated a fascinating dialogue between pure mathematicians and theoretical physicists, and more details can be found in references [43][44][45] (chapters 3-5 of this review [46]). What is clear, however, is that there is a clear direction of travel of new computational techniques on average.…”

The SAGEX review on scattering amplitudes Chapter 12: Amplitudes and collider physics