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Non-planar form factors of generic local operators via on-shell unitarity and color-kinematics duality

Guanda Lin, Gang Yang

2021Journal of High Energy Physics31 citationsDOIOpen Access PDF

Abstract

A bstract Form factors, as quantities involving both local operators and asymptotic particle states, contain information of both the spectrum of operators and the on-shell amplitudes. So far the studies of form factors have been mostly focused on the large N c planar limit, with a few exceptions of Sudakov form factors. In this paper, we discuss the systematical construction of full color dependent form factors with generic local operators. We study the color decomposition for form factors and discuss the general strategy of using on-shell unitarity cut method. As concrete applications, we compute the full two-loop non-planar minimal form factors for both half-BPS operators and non-BPS operators in the SU(2) sector in $$ \mathcal{N} $$ <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"> <mml:mi>N</mml:mi> </mml:math> = 4 SYM. Another important aspect is to investigate the color-kinematics (CK) duality for form factors of high-length operators. Explicit CK dual representation is found for the two-loop half-BPS minimal form factors with arbitrary number of external legs. The full-color two-loop form factor result provides an independent check of the infrared dipole formula for two-loop n -point amplitudes. By extracting the UV divergences, we also reproduce the known non-planar SU(2) dilatation operator at two loops. As for the finite remainder function, interestingly, the non-planar part is found to contain a new maximally transcendental part beyond the known planar result.

Topics & Concepts

UnitarityDuality (order theory)PlanarOperator (biology)Pure mathematicsMathematicsShell (structure)Mathematical physicsPhysicsQuantum mechanicsComputer scienceGeneTranscription factorComputer graphics (images)Materials scienceBiochemistryRepressorComposite materialChemistryBlack Holes and Theoretical PhysicsQuantum Chromodynamics and Particle InteractionsAlgebraic structures and combinatorial models