Topological vertex for Higgsed 5d T
                            
                                N
                             theories

We study the T 2 compactification of a class of 6d N = (1, 0) theories that is Higgsable to N = (2, 0) theories. We show that the resulting 4d N = 2 theory at the origin of the Coulomb branch and the parameter space is generically given by two superconformal matter sectors coupled by an infrared-free gauge multiplet and another conformal gauge multiplet. Our analysis utilizes the 5d theories obtained by putting the same class of 6d theories on S 1 .Our class includes, among others, the 6d theories describing multiple M5 branes on an ALE singularity, and we analyze them in detail. The resulting 4d theory has manifestly both the SL(2, Z) and the full flavor symmetry. We also discuss in detail the special cases of 6d theories where the infrared-free gauge multiplet is absent.In an appendix, we give a field-theoretical argument for an F-theoretic constraint that forbids a particular 6d anomaly-free matter content, as an application of our analysis.

show abstract

“…(See also [31][32][33][34][35][36].) The following statements hold in both 4d and 5d versions of the theory…”

Section: Jhep12(2015)131mentioning

confidence: 86%

6d N = 1 , 0 $$ \mathcal{N}=\left(1,\;0\right) $$ theories on S 1 /T 2 and class S theories: part II

Ohmori

Shimizu

Tachikawa

et al. 2015

J. High Energ. Phys.

148

364

View full text Add to dashboard Cite

show abstract

“…Note that the operators in (E.2) and (E.3) are all properly normalized, in the sense that the instanton number current J λ has the canonical normalization (A.7). 50 Substituting the above into the action (3.39), and comparing with the standard Yang-Mills kinetic term, we find…”

Section: E Instanton Particle Mass Termmentioning

confidence: 98%

“…(E.6) 50 Consider a local operator of nonzero U(1) I charge n inserted at the origin. The boundary condition of the gauge field A a µ near the origin is modified to…”

Section: E Instanton Particle Mass Termmentioning

confidence: 99%

Spheres, charges, instantons, and bootstrap: A five-dimensional odyssey

Chang

Fluder

Lin

et al. 2018

J. High Energ. Phys.

123

View full text Add to dashboard Cite

We combine supersymmetric localization and the conformal bootstrap to study five-dimensional superconformal field theories. To begin, we classify the admissible counterterms and derive a general relation between the five-sphere partition function and the conformal and flavor central charges. Along the way, we discover a new superconformal anomaly in five dimensions. We then propose a precise triple factorization formula for the five-sphere partition function, that incorporates instantons and is consistent with flavor symmetry enhancement. We numerically evaluate the central charges for the rank-one Seiberg and Morrison-Seiberg theories, and find strong evidence for their saturation of bootstrap bounds, thereby determining the spectra of long multiplets in these theories. Lastly, our results provide new evidence for the F -theorem and possibly a C-theorem in five-dimensional superconformal theories.

show abstract

“…A Tao web diagram is a complicated spiral web diagram which contains infinitely many 5-branes jumping over other 5-branes extended to infinity (external 5-branes) in the (p, q)-plane. The computational method for the web diagram including 5-branes jumping over other 5-branes are developed in [9,[28][29][30][31]. For the unrefined case, such external 5-branes are associated with empty Young diagrams.…”

Section: The Partition Functionmentioning

confidence: 99%

Equivalence of several descriptions for 6d SCFT

Hayashi

Kim

Lee

et al. 2017

J. High Energ. Phys.

Self Cite

View full text Add to dashboard Cite

We show that the three different looking BPS partition functions, namely the elliptic genus of the 6d N = (1, 0) Sp(1) gauge theory with 10 flavors and a tensor multiplet, the Nekrasov partition function of the 5d N = 1 Sp(2) gauge theory with 10 flavors, and the Nekrasov partition function of the 5d N = 1 SU(3) gauge theory with 10 flavors, are all equal to each other under specific maps among gauge theory parameters. This result strongly suggests that the three gauge theories have an identical UV fixed point. Type IIB 5-brane web diagrams play an essential role to compute the SU(3) Nekrasov partition function as well as establishing the maps.

show abstract

Topological vertex for Higgsed 5d T N theories

Cited by 19 publications

References 55 publications

6d N = 1 , 0 $$ \mathcal{N}=\left(1,\;0\right) $$ theories on S 1 /T 2 and class S theories: part II

6d N = 1 , 0 $$ \mathcal{N}=\left(1,\;0\right) $$ theories on S 1 /T 2 and class S theories: part II

Spheres, charges, instantons, and bootstrap: A five-dimensional odyssey

Equivalence of several descriptions for 6d SCFT

Contact Info

Product

Resources

About