Special arithmetic of flavor

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Argyres and co-workers started a program to classify all 4d N = 2 QFT by classifying Special Geometries with appropriate properties. They completed the program in rank-1. Rank-1 N = 2 QFT are equivalently classified by the Mordell-Weil groups of certain rational elliptic surfaces.The classification of 4d N = 2 QFT is also conjectured to be equivalent to the representation theoretic (RT) classification of all 2-Calabi-Yau categories with suitable properties. Since the RT approach smells to be much simpler than the Special-Geometric one, it is worthwhile to check this expectation by reproducing the rank-1 result from the RT side. This is the main purpose of the present paper. Along the route we clarify several issues and learn new details about the rank-1 SCFT. In particular, we relate the rank-1 classification to mirror symmetry for Fano surfaces.In the follow-up paper we apply the RT methods to higher rank 4d N = 2 SCFT.

Section: )mentioning

confidence: 98%

“…The relation with the geometry of the rational elliptic surfaces may be described directly, without reference to the physical considerations of [17], as we are going to show.…”

Section: Comparison With Rational Elliptic Surfacesmentioning

confidence: 99%

Section: Relation With the Derived Category Of Rational Elliptic Surfmentioning

confidence: 99%

Section: Ie the Lattice λmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Homological classification of 4d $$ \mathcal{N} $$ = 2 QFT. Rank-1 revisited

Caorsi

Cecotti

2019

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Flavor symmetries and the topology of special Kähler structures at rank 1

Argyres

Lotito

2019

We propose a method for determining the flavor charge lattice of the continuous flavor symmetry of rank-1 4d N = 2 superconformal field theories (SCFTs) and IR free gauge theories from topological invariants of the special Kähler structure of the mass-deformed Coulomb branches (CBs) of the theories. The method is based on the middle homology of the total space of the elliptic fibration over the CB, and is a generalization of the F-theory string web description of flavor charge lattices. The resulting lattices, which we call "string web lattices", contain not only information about the flavor symmetry of the SCFT but also additional information encoded in the lattice metric derived from the middle homology intersection form. This additional information clearly reflects the low energy electric and magnetic charges of BPS states on the CB, but there are other properties of the string web lattice metric which we have not been able to understand in terms of properties of the BPS spectrum. We compute the string web lattices of all rank-1 SCFTs and IR free gauge theories. We find agreement with results obtained by other methods, and find in a few cases that the string web lattice gives additional information on the flavor symmetry. 7 Generalization to higher ranks 63 A Root systems and their lattices 65 B Curves and 1-forms of IR free U(1) gauge theories 67 B.1 Maximally deformed I n singularity. 68 B.2 Submaximal deformations of I n singularities 73 C Curves and 1-forms of IR free SU(2) gauge theories 75-1 -3 We use Dynkin notation for the simple Lie algebras, where A n = SU(n + 1), B n = SO(2n + 1), C n = Sp(2n), and D n = SO(2n), as well as the exceptional E 6,7,8 , F 4 and G 2 algebras. Also, we use a notation where U 1 = U(1). Finally, it is useful to keep in mind the following low-rank algebra equivalences:

Hwang-Oguiso invariants and frozen singularities in special geometry

Cecotti

2024

In Special Geometry there are two inequivalent notions of “Kodaira type” for a singular fiber: one associated with its local monodromy and one with its Hwang-Oguiso characteristic cycle. When the two Kodaira types are not equal the geometry is subtler and its deformation space gets smaller (“partially frozen” singularities). The paper analyzes the physical interpretation of the Hwang-Oguiso invariant in the context of 4d $$ \mathcal{N} $$ N = 2 QFT and describes the surprising phenomena which appear when it does not coincide with the monodromy type. The Hwang-Oguiso multiple fibers are in one-to-one correspondence with the partially frozen singularities in M-theory compactified on a local elliptic K3: a chain of string dualities relates the two geometric set-ups. Paying attention to a few subtleties, this correspondence explains in purely geometric terms how the “same” Kodaira elliptic fiber may have different deformations spaces. The geometric computation of the number of deformations agrees with the physical expectations. At the end we briefly outline the implications of the Hwang-Oguiso invariants for the classification program of 4d $$ \mathcal{N} $$ N = 2 SCFTs.