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{{dablink|For applications to 4-manifolds see [[Seiberg–Witten invariant]]}}
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{{Refimprove|date=October 2010}}
In [[theoretical physics]], '''Seiberg–Witten theory''' is a theory that determines an exact low-energy effective action (for massless degrees of freedom) of a N=2 supersymmetric gauge theory—namely the metric of the [[moduli space]] of vacua.
 
==Seiberg-Witten curves==
In general, effective Lagrangians of supersymmetric gauge theories are largely determined by their holomorphic properties and their behavior near the singularities.In particular, in [[gauge theory]] with ''N''&nbsp;=&nbsp;2 [[extended supersymmetry]], the moduli space of vacua is a special Kahler manifold and its Kahler potential is constrained by above conditions.
 
In the original derivation by [[Seiberg]] and [[Witten]], they extensively used holomorphy and electric-magnetic duality
to constrain the prepotential, namely the metric of the moduli space of vacua.
Consider the example with gauge group SU(n).The classical potential is:
 
{{NumBlk|:|<math>V(x) = \frac{1}{g^2} \operatorname{Tr} [\phi , \bar{\phi} ]^2 \,</math>|{{EquationRef|1}}}}
 
This must vanish on the moduli space, so vacuum expectation value of &phi can be gauge rotated into Cartan subalgebra,
so it is a traceless diagonal complex matrix.
 
Because the fields &phi; no longer have vanishing [[Vacuum expectation value]]. Because these are now heavy due to the Higgs effect, they should be integrated out in order to find the effective N=2 Abelian gauge theory. This can be expressed in terms of a single holomorphic function F.
 
In terms of this prepotential the Lagrangian can be written in the form:
 
{{NumBlk|:| <math>\frac{1}{4\pi} \operatorname{Im} \Bigl[ \int d^4 \theta \frac{dF}{dA} \bar{A} + \int d^2 \theta \frac{1}{2} \frac{d^2 F}{dA^2} W_\alpha W^\alpha \Bigr]  \,</math>|{{EquationRef|3}}}}
 
{{NumBlk|:|<math>F = \frac{i}{2\pi} \mathcal{A}^2 \operatorname{\ln}\frac{\mathcal{A}^2}{\Lambda^2} + \sum_{k=1}^\infty F_k \frac{\Lambda^{4k}}{\mathcal{A}^{4k}} \mathcal{A}^2 \,</math>|{{EquationRef|4}}}}
 
The first term is a perturbative loop calculation and the second is the [[Instanton#4d supersymmetric gauge theories|instanton]] part where k labels fixed instanton numbers.  
 
From this we can get the mass of the [[Bogomol%27nyi-Prasad-Sommerfield_bound#Supersymmetry|BPS]] particles.
 
{{NumBlk|:|<math>M \approx |na+ma_D| \,</math>|{{EquationRef|5}}}}
{{NumBlk|:|<math> a_D = \frac{dF}{da} \,</math>|{{EquationRef|6}}}}
 
One way to interpret this is that these variables a and its dual can be expressed as [[Period_mapping#The_case_of_elliptic_curves|periods]] of a meromorphic differential on a Riemann surface called the Seiberg-Witten curve.
 
==Seiberg-Witten prepotential via instanton counting==
Consider a N&nbsp;=&nbsp;1 super Yang-Mills theory in curved 6 dimensional background.  
After dimensional reduction on 2-torus, we obtain a 4d N&nbsp;=&nbsp;2 super Yang-Mills theory with additional terms.
Turning Wilson lines to compensate holonomies of fermions on the 2-torus, we get 4d N&nbsp;=&nbsp;2 SYM in Ω-background. Ω has 2 parameters, ε1,ε2, which go 0 in the flat limit.
 
In Ω-background, we can integrate out all the non-zero mode,so the partition function (with the boundary condition \phi →0 at x → ∞)
can be expressed as a sum of products and ratios of fermionic and bosonic determinants over instanton number.
In the limit where ε1,ε2 approach to 0, this sum is dominated by a unique saddle point.
On the other hand, when ε1,ε2 approach to 0,
{{NumBlk|:|<math> Z(a;\varepsilon_{1},\varepsilon_{2},\Lambda)=exp(-\frac{1}{\varepsilon_{1}\varepsilon_{2}}(\mathcal{F}(a;\Lambda)+O(\varepsilon_{1},\varepsilon_{2}))\,</math>|{{EquationRef|10}}}}
holds.
 
==See also==
*[[Yang–Mills theory]]
*[[Argyres-Seiberg duality]]
*[[Gaiotto duality]]
==External links==
*[http://xstructure.inr.ac.ru/x-bin/revtheme3.py?level=1&index1=284824&skip=0 Seiberg-Witten theory on arxiv.org]
*[http://arxiv.org/pdf/hep-th/9407087.pdf Electric-Magnetic Duality, Monopole Condensation, And Confinement In N = 2 Supersymmetric Yang-Mills Theory]
 
{{DEFAULTSORT:Seiberg-Witten theory}}
[[Category:Supersymmetry]]
[[Category:Gauge theories]]
 
 
{{phys-stub}}

Latest revision as of 07:54, 7 November 2014

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