392 research outputs found
Positroid Stratification of Orthogonal Grassmannian and ABJM Amplitudes
A novel understanding of scattering amplitudes in terms of on-shell diagrams
and positive Grassmannian has been recently established for four dimensional
Yang-Mills theories and three dimensional Chern-Simons theories of ABJM type.
We give a detailed construction of the positroid stratification of orthogonal
Grassmannian relevant for ABJM amplitudes. On-shell diagrams are classified by
pairing of external particles. We introduce a combinatorial aid called `OG
tableaux' and map each equivalence class of on-shell diagrams to a unique
tableau. The on-shell diagrams related to each other through BCFW bridging are
naturally grouped by the OG tableaux. Introducing suitably ordered BCFW bridges
and positive coordinates, we construct the complete coordinate charts to cover
the entire positive orthogonal Grassmannian for arbitrary number of external
particles. The graded counting of OG tableaux suggests that the positive
orthogonal Grassmannian constitutes a combinatorial polytope.Comment: 32 pages, 23 figures; v2. minor corrections; v3. several
clarifications and minor improvement
Little strings on orbifolds
We explore two classes of 6d little string theories
obtained from type IIA/IIB NS5-branes probing singularities. Their tensor
branches are described by effective gauge theories whose instanton solitons are
macroscopic little strings. We specifically study two families of 2d
gauge theories which describe at low energy the worldsheet
dynamics of the type IIA/IIB little strings. These gauge theories are useful to
calculate the supersymmetric partition functions of the little string theories
on . We establish the T-duality of the little string
theories by utilizing their BPS spectra as a probe.Comment: 29 pages, 9 figures; v2: minor changes, published versio
General instanton counting and 5d SCFT
Instanton partition functions of 5d N=1 gauge theories are Witten indices for
the ADHM gauged quantum mechanics with (0,4) SUSY. We derive the integral
contour prescriptions for these indices using the Jeffrey-Kirwan method, for
gauge theories with hypermultiplets in various representations. The results can
be used to study various 4d/5d/6d QFTs. In this paper, we study 5d SCFTs which
are at the UV fixed points of 5d SYM theories. In particular, we focus on the
Sp(N) theories with N_f \leq 7 fundamental and 1 antisymmetric hypermultiplets,
living on the D4-D8-O8 systems. Their superconformal indices calculated from
instantons all show E_{N_f+1} symmetry enhancements. We also discuss some
aspects of the 6d SCFTs living on the M5-M9 system. It is crucial to understand
the UV incompleteness of the 5d SYM, coming from small instantons in our
problem. We explain in our examples how to fix them. As an aside, we derive the
index for general gauged quantum mechanics with (0,2) SUSY.Comment: 67 pages, 9 figures; v3: minor changes, published versio
Elliptic Genus of E-strings
We study a family of 2d N=(0,4) gauge theories which describes at low energy
the dynamics of E-strings, the M2-branes suspended between a pair of M5 and M9
branes. The gauge theory is engineered using a duality with type IIA theory,
leading to the D2-branes suspended between an NS5-brane and 8 D8-branes on an
O8-plane. We compute the elliptic genus of this family of theories, and find
agreement with the known results for single and two E-strings. The partition
function can in principle be computed for arbitrary number of E-strings, and we
compute them explicitly for low numbers. We test our predictions against the
partially known results from topological strings, as well as from the instanton
calculus of 5d Sp(1) gauge theory. Given the relation to topological strings,
our computation provides the all genus partition function of the refined
topological strings on the canonical bundle over 1/2 K3.Comment: 49 pages, 2 figure
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