130 research outputs found
Explicit Multimonopole Solutions in SU(N) Gauge Theory
We construct multimonopole solutions containing N-1 distinct fundamental
monopoles in SU(N) gauge theory. When the gauge symmetry is spontaneously
broken to U(1)^{N-1}, the monopoles are all massive, and we show that the
fields can be written in terms of elementary function for all values of the
monopole positions and phases. In the limit of unbroken U(1) X SU(N-2) X U(1)
symmetry, the configuration can be viewed as containing a pair of massive
monopoles, each carrying both U(1) and SU(N-2) magnetic charges, together with
N-3 massless monopoles that condense into a cloud of non-Abelian fields. We
obtain explicit expressions for the fields in the latter case and use these to
analyze the properties of the non-Abelian cloud.Comment: 22 pages, no figure
Fundamental Vortices, Wall-Crossing, and Particle-Vortex Duality
We explore 1d vortex dynamics of 3d supersymmetric Yang-Mills theories, as
inferred from factorization of exact partition functions. Under Seiberg-like
dualities, the 3d partition function must remain invariant, yet it is not a
priori clear what should happen to the vortex dynamics. We observe that the 1d
quivers for the vortices remain the same, and the net effect of the 3d duality
map manifests as 1d Wall-Crossing phenomenon; Although the vortex number can
shift along such duality maps, the ranks of the 1d quiver theory are
unaffected, leading to a notion of fundamental vortices as basic building
blocks for topological sectors. For Aharony-type duality, in particular, where
one must supply extra chiral fields to couple with monopole operators on the
dual side, 1d wall-crossings of an infinite number of vortex quiver theories
are neatly and collectively encoded by 3d determinant of such extra chiral
fields. As such, 1d wall-crossing of the vortex theory encodes the
particle-vortex duality embedded in the 3d Seiberg-like duality. For , the D-brane picture is used to motivate this 3d/1d connection, while,
for , this 3d/1d connection is used to fine-tune otherwise
ambiguous vortex dynamics. We also prove some identities of 3d supersymmetric
partition functions for the Aharony duality using this vortex wall-crossing
interpretation.Comment: 75 pages, 24 figures; v2: a reference added, published versio
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