A generalized Jaeger ℐ(0,1;t) integral, resulting from mathematical modelling in electroanalytical chemistry
Bieniasz, L.K. and McKee, S. and Sleeman, B.D. (2022) A generalized Jaeger ℐ(0,1;t) integral, resulting from mathematical modelling in electroanalytical chemistry. Journal of Computational and Applied Mathematics, 407. 114090. ISSN 0377-0427 (https://doi.org/10.1016/j.cam.2022.114090)
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Abstract
Eighty years ago J.C. Jaeger et al. introduced a class of improper integrals, currently called "Jaeger integrals" that occur in theoretical models of diverse physical phenomena characterized by cylindrical geometry. One application area is electroanalytical chemistry, where, in particular, the limiting Faradaic current in a potential step chronoamperometric experiment at a cylindrical electrode is described by the Jaeger ℐ(0,1;t) integral. In a recently published paper the first author determined the Laplace transform of the nonlimiting Faradaic current for a reversible charge transfer between members of a redox couple characterized by different diffusion coefficients. In this study we invert the novel Laplace transform and observe that, while it cannot be expressed by any of the Jaeger integrals, it can be perceived as a generalization of the ℐ(0,1;t) integral. We also describe how to compute this integral with the modulus of the relative error close to 10−16 or smaller, using a C++ code employing exclusively standard floating point variables, without resorting to quad precision or other external high precision libraries.
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Item type: Article ID code: 79944 Dates: DateEvent30 June 2022Published25 February 2022Published Online18 December 2021AcceptedSubjects: Science > Mathematics Department: Faculty of Science > Mathematics and Statistics Depositing user: Pure Administrator Date deposited: 24 Mar 2022 09:25 Last modified: 12 Dec 2024 12:54 Related URLs: URI: https://strathprints.strath.ac.uk/id/eprint/79944