Walsh–Lebesgue theorem

The Walsh–Lebesgue theorem is a famous result from harmonic analysis proved by the American mathematician Joseph L. Walsh in 1929, using results proved by Lebesgue in 1907.^[1]^[2]^[3] The theorem states the following:

Let Template:Math be a compact subset of the Euclidean plane Template:Math such the relative complement of $K$ with respect to Template:Math is connected. Then, every real-valued continuous function on $\partial K$ (i.e. the boundary of Template:Math) can be approximated uniformly on $\partial K$ by (real-valued) harmonic polynomials in the real variables Template:Math and Template:Math.^[4]

Generalizations

The Walsh–Lebesgue theorem has been generalized to Riemann surfaces^[5] and to Template:Math.

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In 1974 Anthony G. O'Farrell gave a generalization of the Walsh–Lebesgue theorem by means of the 1964 Browder–Wermer theorem^[6] with related techniques.^[7]^[8]^[9]

References

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Walsh–Lebesgue theorem

Generalizations

References

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