1549055384-Symplectic_Geometry_and_Topology__Eliashberg_

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118 M. HUTCHINGS AND C. H. TAUBES, SEIBERG-WITTEN EQUATIONS


acting on C^2 -valued functions. (The factor of ~ co mes from the squaring of A in
the map (2.5).) Note in particular that the spin connection is compatible with the
metric on S+·


Exercise 2.12. Show that \J A is a module derivation: if a is a 1-form and 'l/; is
a section of S+ EB S_ then


(2.7)


in 01 (X, S+ EB S_). Here r is the Levi-Civita connection.

2. 7. The Dirac operator


Definition 2.13. If A is a compatible connection on L, the Dirac operator DA

is the composition


In the local model described above,

DA = ('Vi+ i'\7 2


'\73+2'\7 4


where \J j = Oj + ~ Aj. If we introduce complex coordinates z = x^1 +ix^2 , w = x^3 +ix^4


and let 'Vz = ~('\71 - i'\72), etc., then


(2.8)

2.8. The Seiberg-Witten equations


Let X be a smooth oriented Riemannian 4-manifold with a Spine structure. Fix a
self-dual 2-form μ. The Seiberg-Witten equations are


DA'l/;=0,
F,t=q('l/;)+iμ

where A is a compatible connection on L and 'l/; is a section of S+·
Here F,t is the self-dual component of FA, which is an imaginary-valued 2-form.
Also


q : S+ __, iA~T* X

is a quadratic form defined as follows. We extend Clifford multiplication to a map
A^2 ---+ End ( S +) by defining


1

(2.9) cl(v /\ w) =


2

(cl(v) cl(w) - cl(w) cl(v)).

We extend complex linearly to A^2 ® C and restrict to get a map


cl+ : A~® C __, End(S+)·

We then define

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