Holographic origin of $a$-maximization and higher-derivative AdS$_5$/CFT$_4$

TL;DR

This paper establishes a holographic framework connecting higher-derivative supergravity actions in AdS$_5$ to the $a$-maximization principle in dual conformal field theories, providing a precise correspondence with anomaly polynomials.

Contribution

It develops a consistent off-shell formalism linking higher-derivative supergravity actions to $a$-maximization, including all known invariants and their relation to boundary anomalies.

Findings

Reproduces the trial $a$-anomaly coefficient holographically.

Identifies supergravity equations of motion with $a$-maximization.

Shows higher-derivative invariants beyond four-derivative are redundant.

Abstract

We develop a consistent partially off-shell framework for evaluating higher-derivative actions of five-dimensional $\cal{N}=1$ gauged supergravity with abelian vector multiplets on AdS$_5$. Using the superconformal formalism, we show that the resulting holographic expression reproduces the trial $a$-anomaly coefficient of the dual conformal field theory, identifying the supergravity equations of motion with $a$-maximization. We present an exact correspondence between Chern-Simons couplings and the anomaly polynomial of the boundary theory. We illustrate our proposal by applying it to all known two- and four-derivative actions, including the ``off-diagonal'' invariants never before considered in the gauged supergravity literature. Finally, we argue that all invariants beyond four-derivative yield no genuinely new contributions to asymptotically AdS$_5$ BPS backgrounds, but instead reduce to linear combinations of the established two- and four-derivative actions.