proof of Morera’s theorem


We provide a proof of Morera’s theoremMathworldPlanetmath under the hypothesisMathworldPlanetmathPlanetmath that Γf(z)𝑑z=0 for any circuitMathworldPlanetmath Γ contained in G. This is apparently more restrictive, but actually equivalentMathworldPlanetmathPlanetmathPlanetmathPlanetmathPlanetmath, to supposing Δf(z)𝑑z=0 for any triangleMathworldPlanetmath ΔG, provided that f is continuousPlanetmathPlanetmath in G.

The idea is to prove that f has an antiderivative F in G. Then F, being holomorphic in G, will have derivativesPlanetmathPlanetmath of any order in G; but F(n)(z)=f(n-1)(z) for all zG, n, n1.

First, suppose G is connectedPlanetmathPlanetmath. Then G, being open, is also pathwise connected.

Fix z0G. For any zG define F(z) as

F(z)=γ(z0,z)f(w)𝑑w, (1)

where γ(z0,z) is a path entirely contained in G with initial point z0 and final point z.

The function F:G is well defined. In fact, let γ1 and γ2 be any two paths entirely contained in G with initial point z0 and final point z; define a circuit Γ by joining γ1 and -γ2, the path obtained from γ2 by “reversing the parameter direction”. Then by linearity and additivity of integral

Γf(w)𝑑w=γ1f(w)𝑑w+-γ2f(w)𝑑w=γ1f(w)𝑑w-γ2f(w)𝑑w; (2)

but the left-hand side is 0 by hypothesis, thus the two integrals on the right-hand side are equal.

We must now prove that F=f in G. Given zG, there exists r>0 such that the ball Br(z) of radius r centered in z is contained in G. Suppose 0<|Δz|<r: then we can choose as a path from z to z+Δz the segment γ:[0,1]G parameterized by tz+tΔz. Write f=u+iv with u,v:G: by additivity of integral and the mean value theorem,

F(z+Δz)-F(z)Δz = 1Δzγf(w)𝑑w
= 1Δz01f(z+tΔz)Δz𝑑t
= u(z+θuΔz)+iv(z+θvΔz)

for some θu,θv(0,1). Since f is continuous, so are u and v, and

limΔz0F(z+Δz)-F(z)Δz=u(z)+iv(z)=f(z).

In the general case, we just repeat the procedure once for each connected componentMathworldPlanetmathPlanetmath of G.

Title proof of Morera’s theorem
Canonical name ProofOfMorerasTheorem
Date of creation 2013-03-22 18:53:34
Last modified on 2013-03-22 18:53:34
Owner Ziosilvio (18733)
Last modified by Ziosilvio (18733)
Numerical id 10
Author Ziosilvio (18733)
Entry type Proof
Classification msc 30D20