Chern-Simons gauge theory and Witten's invariant

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imported>Pythagoras0님의 2012년 10월 28일 (일) 13:50 판
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introduction
  • 3D TQFT( Chern-Simons theory)
  • CS is an invariant for 3-manifolds
  • Kashaev Volume conjecture
  • action
    Let \(A\) be a SU(2)-connection on the trivicla C^2 bundle over S^3
    \(S=\frac{k}{4\pi}\int_M \text{tr}\,(A\wedge dA+\tfrac{2}{3}A\wedge A\wedge A)=\frac{k}{4\pi}\int_M \text{tr}\,(A\wedge dA+\tfrac{1}{3}A\wedge [A,A])\)
  • path integral gives Jones polynomials
    \(\langle K\rangle=\int {\operatorname{Tr}(\int_{K} A)}e^{2\pi i k \operatorname{CS}(A)}DA=(q^{1/2}+q^{-1/2})V(K,q^{-1})\)
    \(e^{2\pi i k \operatorname{CS}(A)}DA\): formal probability measure on the space of all connections, coming grom quantum field theory and the Chern-Simons action
    \({\operatorname{Tr}(\int_{K} A)}\) : measures the twisting of the connection along the knot

 

 

 

 

 

M : threefold

\(P\to M\) : principal G-bundle

\(F=A\wedge dA+A\wedge A\)

\(\operatorname{det}(I+\frac{iF}{2\pi})= c_0+c_1+c_2\)

\(c_3=A\wedge dA+\tfrac{2}{3}A\wedge A\wedge A\)

\(c_2=\frac{1}{8\pi^2} \operatorname{tr} F\wedge F =dc_3\)

\(\int_M c_3\)

 

 

Morse theory approach
  • Taubes, Floer interpret the Chern-Simons function as a Morse function on the space of all gauge fields modulo the action of the group of gauge transformations
  • analogous to Euler characteristic of a manifold can be computed as the signed count of Morse indices

 

 

Chern-Simons invariant

 

 

memo

 

 

history

 

 

related items

 

 

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encyclopedia

 

 

question and answers(Math Overflow)

 

 

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experts on the field

 

 

links
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