On a family of solutions of the second Painlevé equation related to superconductivity

Bernard Helffer; Fred B. Weissler

doi:10.1017/S0956792598003428

Abstract

In a recent paper devoted to the study of the superheating field attached to a semi-infinite superconductor, Chapman [1] constructs a family of approximate solutions of the Ginzburg–Landau system. This construction, based on a matching procedure, implicitly uses the existence of a family of solutions depending on a parameter c∈IR of the Painlevé equation in a semi-infinite interval (0, +∞)

with a Neumann condition at 0

and having a prescribed behaviour at +∞

In this paper we prove the existence of such a family of solutions and investigate its properties. Moreover, we prove that the second coefficient in Chapman's expansion of the superheating field is finite.

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On a family of solutions of the second Painlevé equation related to superconductivity

Abstract

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On a family of solutions of the second Painlevé equation related to superconductivity

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