Registration Room: Giambiagi

Generalized Schur partition functions and RG flows

• Shlomo Razamat

Room: Giambiagi We revisit a double-scaled limit of the superconformal index of ${\cal N}=2$ superconformal field theories (SCFTs) which generalizes the Schur index. The resulting partition function, $\hat {\cal Z}(q,\alpha)$, has a standard $q$-expansion with coefficients depending on a continuous parameter $\alpha$. The Schur index is a special case with $\alpha=1$. Through explicit computations we argue that this partition function is an invariant of certain mass deformations and vacuum expectation value (vev) deformations of the SCFT. In particular, two SCFTs residing in different corners of the same Coulomb branch, satisfying certain restrictive conditions, have the same partition function with a non-trivial map of the parameters, $\hat {\cal Z}_1(q,\alpha_1)=\hat {\cal Z}_2(q,\alpha_2(\alpha_1))$. For example, we show that the Schur index of all the SCFTs in the Deligne-Cvitanovi\'c series is given by special values of $\alpha$ of the partition function of the $SU(2)$ $N_f=4$ ${\cal N}=2$ SQCD.

New punctures for six-dimensional CFT compactifications

• Alessandro Tomasiello

Room: Giambiagi Compactifying 6D SCFTs with N=(1,0) supersymmetry on Riemann surfaces is expected to produce N=1 analogues of the famous Class S models. I will study holographic defects in massive IIA string theory AdS7 solutions, and use the results to obtain information about the punctures of these N=1 models, and their contribution to central charges.

Reception Room: Giambiagi

S-duality for N=4 SYM in the IR

• Antoine Bourget

Room: Giambiagi It is well known that N=4 SYM has modular invariance, which includes S-duality. In this talk, I will review subtle incarnations of this fact in the infrared. First, I describe the interplay between modular invariances and global forms of the theory as seen from the moduli space of vacua, through the lens of the special Kahler structure on the Coulomb branch. Then, I show how these effects can be seen from a classical integrable system (the elliptic Calogero-Moser system) upon mass deformation. I will also touch on some conundrums. This is based on [2504.01502] and future work with P. Argyres, J. Grimminger, M. Lotito and M. Weaver.

Coffee break Room: Giambiagi

Magnetic Quivers, Quantum Branches, and Chern-Simons Matter Theories

• Marcus Sperling

Room: Giambiagi Supersymmetric quantum field theories with eight supercharges in dimensions 3–6 feature rich moduli spaces, with Higgs branches- often singular hyper-Kähler spaces- playing a central role. The framework of magnetic quivers provides a combinatorial tool to encode these geometries, while the decay and fission algorithm efficiently determines their phase structure and renormalization group (RG) flows through convex linear algebra techniques. In this talk, I will present a unified perspective on quantum hyper-Kähler branches and RG flows in SCFTs across dimensions 3-6, focusing in particular on recent advances for three-dimensional N=3 Chern-Simons matter (CSM) theories. Utilizing Type IIB brane constructions, I will derive magnetic quivers that capture the maximal hyper-Kähler branches of both N=3 and N=4 CSM theories, including cases with non-trivial Chern–Simons levels beyond the reach of standard dualities. This yields a systematic characterization of their moduli spaces and RG flows. Based on work with F. Marino (arXiv:2503.02744), and work in progress with F. Marino and S. Moura Soysüren.

A 2d/2d unitary/non-unitary correspondence

• Gabi Zafrir

Room: Giambiagi Dimensional reduction often implies non-trivial connections between field theories in different dimensions. A well-known example is the AGT (Alday-Gaiotto-Tachikawa) type relation that connects partition function of different theories sharing a common higher dimensional ancestor. In this talk we shall exploit this relation to study the compactification of the 4d H0 SCFT on Riemann surfaces to get 2d (2,2) theories. Specifically, we shall argue for a 2d/2d unitary/non-unitary correspondence of AGT type between the resulting 2d theories and the Lee-Yang minimal model. We use this to identify the resulting 2d theories for certain choices of the Riemann surfaces, and test them with a variety of consistency checks.

From anomaly cancellation in string theory to symmetry descent in QFT

• Saghar Hosseini

Room: Giambiagi In Type I string theory and related models, perturbative anomalies are cancelled by the Green–Schwarz mechanism. I will show how, more generally, both perturbative and global anomalies cancellations can be explained using Ramond–Ramond fields understood as boundary modes of an 11-dimensional bulk theory in differential KO-theory. Dimensional reduction of this bulk leads to a symmetry descent procedure for lower-dimensional QFTs, providing a systematic framework to analyse their anomalies and categorical symmetry structures. Examples include higher-group symmetries in quiver gauge theories, mod-2 Witten anomalies, and mixed anomalies with R-symmetries.

Coffee break Room: Giambiagi

Gapped phases of 4d QFTs with non-invertibile symmetries

• Michele Del Zotto

Room: Giambiagi Abstract: I will discuss a coarse classification of gapped phases of 4d QFTs with non-invertibile finite symmetries. Applications to spntaneous breaking, anomalies and symmetry protected gaplessness will be discussed along with some examples. Based on joint work with Elias Riedel Gårding and Azeem Hasan.

3D N=8 Super Yang-Mills theory Revisited

• Chiung Hwang

Room: Giambiagi I will present an approach to understanding the low-energy behavior of 3d bad quiver gauge theories through the mirror dualization algorithm. This algorithm provides a systematic method for constructing mirror duals of 3d linear and circular quivers, extending beyond the “good” theories classified by Gaiotto and Witten. As an application, I will discuss N=8 super Yang–Mills theory, which exhibits a novel Higgs mechanism triggered by monopole operators carrying non-unit magnetic flux. This analysis highlights new structures in the dynamics of 3d gauge theories and broadens the scope of known mirror dualities.

Coffee break Room: Giambiagi

Planar Abelian duals of 3d (S)QCD

• Simone Rota

Room: Giambiagi We propose Abelian mirror duals for 3d Chern-Simons SQCD theories. We test these dualities by analyzing supersymmetric partition functions and their consistency under mass deformations. We discuss the implications of these dualities and propose analogous dualities for 3d QCD theories in the absence supersymmetry.

Finite Landscape of 6d (1,0) Supergravity

• Hee-Cheol Kim

Room: Giambiagi I will talk about a bottom-up proof of the finiteness of the number of massless fields in any 6d supergravity theories preserving 8 supercharges. From this, sharp bounds on the number of tensor multiplets and the rank of gauge algebras will be derived. I will also show that these bounds are saturated by specific theories realized through F-theory compactifications on elliptic Calabi-Yau threefolds.

Topological vertex for 5-brane web with orientifold

• Futoshi Yagi

Room: Giambiagi Motivated by the equivalence between 5-brane web diagrams and toric Calabi-Yau 3-folds, we propose a generalization for the topological vertex formalism applied to 5-brane web diagrams with orientifold planes. We confirm that the Nekrasov's instanton partition functions for the corresponding 5d N=1 gauge theories are reproduced.

Coffee break Room: Giambiagi

2d Conformal Field Theories on Magic Triangle

• Kimyeong Lee

Room: Giambiagi The magic triangle due to Cvitanovic and Deligne–Gross is an extension of the Freudenthal–Tits magic square of semisimple Lie algebras. In this paper, we identify all 2d rational conformal field theories associated to the magic triangle. These include various Wess–Zumino–Witten (WZW) models, Virasoro minimal models, compact bosons and their non-diagonal modular invariants. At level one, we find a two-parameter family of modular linear differential equation (MLDE) of fourth order whose solutions produce the affine characters of all elements in the magic triangle. We also find a universal coset relation which generalizes the dual pairs with respect to (E8)1 in the Cvitanovic–Deligne exceptional series. This suggests that five atomic models form the constitutes for all theories in the triangle.