nLab Seiberg-Witten theory

Redirected from "quantum Seiberg-Witten curves".
Contents

Context

Quantum field theory

Super-Geometry

Contents

Idea

Seiberg-Witten theory studies the moduli space of vacua in N=2 D=4 super Yang-Mills theory, in particular the electric-magnetic duality (Montonen-Olive duality) of the theory.

References

General

For more and for general references see at N=2 D=4 super Yang-Mills theory.

The original articles:

Review:

A useful discussion of the physical origins of the Seiberg-Witten equations for mathematicians:

  • Siye Wu, The Geometry and Physics of the Seiberg-Witten Equations, Progress in mathematics 205 (2002)

In relation to integrable systems:

Discussion of lifts of SW-invariants to M-theory:

See also:

Lift to stable homotopy groups of spheres

A lift of Seiberg-Witten invariants to classes in circle group-equivariant stable homotopy groups of spheres (referred to in terms of stable Cohomotopy by some authors):

Review:

  • Ming Xu: The Bauer-Furuta invariant and a Cohomotopy refined Ruberman invariant, PhD thesis, Stony Brook (2004) [pdf, pdf]

  • Tim Perutz: MO comment [MO:a/139921]

  • Arun Debray: Furuta’s 10/810/8 Theorem (2019) [pdf, pdf]

Further discussion:

  • Mikio Furuta, Yukio Kametani, Hirofumi Matsue, Norihiko Minami: Homotopy theoretical considerations of the Bauer–Furuta stable homotopy Seiberg–Witten invariants, Geometry and Topology Monographs 10 (2007) 155-166 [doi:10.2140/gtm.2007.10.155, arXiv:0903.4462]

  • Nobuhiro Nakamura: Bauer–Furuta invariants under 2\mathbb{Z}_2-actions, Math. Z. 262 (2009) 219–233 [doi:10.1007/s00209-008-0370-1]

  • Chanyoung Sung: Equivariant Bauer-Furuta invariants on Some Connected Sums of 4-manifolds, Tokyo J. Math. 40 1 (2017) 53-63 [doi:10.3836/tjm/1502179215]

Seiberg-Witten curve

SW-curve in SW-theory

The notion of the Seiberg-Witten curve in Seiberg-Witten theory originates in:

Review:

and in relation to integrable systems:

As M5-brane worldvolume

Observation that under geometric engineering of D=4 N=2 SYM on D4/NS5 intersections and further lift to a single M5-brane, the SW-curve is identified with the M5-worldvolume transverse to the SYM-spacetime:

Further early discussion:

Review in:

Quantum SW-curve

On the “quantum SW curve”, a kind of quantized SW curve:

In relation to class S-theories and “M3-brane”-defect branes inside M5-branes:

In relation to E-strings and D6-D8-brane bound states:

On why the SW-curve should be quantized this way, as seen from topological string theory:

Relation to Rozansky-Witten invariants

On relation between Rozansky-Witten invariants and Seiberg-Witten invariants of 3-manifolds:

  • Matthias Blau, George Thompson, On the Relationship between the Rozansky-Witten and the 3-Dimensional Seiberg-Witten Invariants, Adv. Theor. Math. Phys. 5 (2002) 483-498 [arXiv:hep-th/0006244]

Last revised on December 10, 2024 at 14:28:49. See the history of this page for a list of all contributions to it.