Regge trajectories for the (2, 0) theories

Madalena Lemos; Balt C. van Rees; Xiang Zhao

doi:10.1007/JHEP01(2022)022

Regge trajectories for the (2, 0) theories

Madalena Lemos
, Balt C. van Rees
, Xiang Zhao

Durham University

Research output: Contribution to journal › Article › peer-review

Abstract

We investigate the structure of conformal Regge trajectories for the maximally supersymmetric (2, 0) theories in six dimensions. The different conformal multiplets in a single superconformal multiplet must all have similarly-shaped Regge trajectories. We show that these super-descendant trajectories interact in interesting ways, leading to new constraints on their shape. For the four-point function of the stress tensor multiplet supersymmetry also softens the Regge behavior in some channels, and consequently we observe that ‘analyticity in spin’ holds for all spins greater than −3. All the physical operators in this correlator therefore lie on Regge trajectories and we describe an iterative scheme where the Lorentzian inversion formula can be used to bootstrap the four-point function. Some numerical experiments yield promising results, with OPE data approaching the numerical bootstrap results for all theories with rank greater than one.

Original language	English
Article number	22
Journal	Journal of High Energy Physics
Volume	2022
Issue number	1
DOIs	https://doi.org/10.1007/JHEP01(2022)022
Publication status	Published - 1 Jan 2022

Keywords

Conformal Field Theory
Conformal and W Symmetry
Nonperturbative Effects

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10.1007/JHEP01(2022)022

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title = "Regge trajectories for the (2, 0) theories",

abstract = "We investigate the structure of conformal Regge trajectories for the maximally supersymmetric (2, 0) theories in six dimensions. The different conformal multiplets in a single superconformal multiplet must all have similarly-shaped Regge trajectories. We show that these super-descendant trajectories interact in interesting ways, leading to new constraints on their shape. For the four-point function of the stress tensor multiplet supersymmetry also softens the Regge behavior in some channels, and consequently we observe that {\textquoteleft}analyticity in spin{\textquoteright} holds for all spins greater than −3. All the physical operators in this correlator therefore lie on Regge trajectories and we describe an iterative scheme where the Lorentzian inversion formula can be used to bootstrap the four-point function. Some numerical experiments yield promising results, with OPE data approaching the numerical bootstrap results for all theories with rank greater than one.",

keywords = "Conformal Field Theory, Conformal and W Symmetry, Nonperturbative Effects",

author = "Madalena Lemos and \{van Rees\}, \{Balt C.\} and Xiang Zhao",

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T1 - Regge trajectories for the (2, 0) theories

AU - Lemos, Madalena

AU - van Rees, Balt C.

AU - Zhao, Xiang

PY - 2022/1/1

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N2 - We investigate the structure of conformal Regge trajectories for the maximally supersymmetric (2, 0) theories in six dimensions. The different conformal multiplets in a single superconformal multiplet must all have similarly-shaped Regge trajectories. We show that these super-descendant trajectories interact in interesting ways, leading to new constraints on their shape. For the four-point function of the stress tensor multiplet supersymmetry also softens the Regge behavior in some channels, and consequently we observe that ‘analyticity in spin’ holds for all spins greater than −3. All the physical operators in this correlator therefore lie on Regge trajectories and we describe an iterative scheme where the Lorentzian inversion formula can be used to bootstrap the four-point function. Some numerical experiments yield promising results, with OPE data approaching the numerical bootstrap results for all theories with rank greater than one.

AB - We investigate the structure of conformal Regge trajectories for the maximally supersymmetric (2, 0) theories in six dimensions. The different conformal multiplets in a single superconformal multiplet must all have similarly-shaped Regge trajectories. We show that these super-descendant trajectories interact in interesting ways, leading to new constraints on their shape. For the four-point function of the stress tensor multiplet supersymmetry also softens the Regge behavior in some channels, and consequently we observe that ‘analyticity in spin’ holds for all spins greater than −3. All the physical operators in this correlator therefore lie on Regge trajectories and we describe an iterative scheme where the Lorentzian inversion formula can be used to bootstrap the four-point function. Some numerical experiments yield promising results, with OPE data approaching the numerical bootstrap results for all theories with rank greater than one.

KW - Conformal Field Theory

KW - Conformal and W Symmetry

KW - Nonperturbative Effects

U2 - 10.1007/JHEP01(2022)022

DO - 10.1007/JHEP01(2022)022

M3 - Article

AN - SCOPUS:85122690097

SN - 1126-6708

VL - 2022

JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

IS - 1

M1 - 22

ER -

Regge trajectories for the (2, 0) theories

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Keywords

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