English

An improved algorithm and a Fortran 90 module for computing the conical function $P^m_{-1/2+i\tau}(x)$

Classical Analysis and ODEs 2015-06-16 v1

Abstract

In this paper we describe an algorithm and a Fortran 90 module ({\bf Conical}) for the computation of the conical function P12+iτm(x)P^m_{-\tfrac12+i\tau}(x) for x>1x>-1, m0m \ge 0, τ>0\tau >0. These functions appear in the solution of Dirichlet problems for domains bounded by cones; because of this, they are involved in a large number of applications in Engineering and Physics. In the Fortran 90 module, the admissible parameter ranges for computing the conical functions in standard IEEE double precision arithmetic are restricted to (x,m,τ)(1,1)×[0,40]×[0,100](x,m,\tau) \in (-1,1) \times [0,\,40] \times [0,\,100] and (x,m,τ)(1,100)×[0,100]×[0,100](x,m,\tau) \in (1,100) \times [0,\,100] \times [0,\,100]. Based on tests of the three-term recurrence relation satisfied by these functions and direct comparison with Maple, we claim a relative accuracy close to 101210^{-12} in the full parameter range, although a mild loss of accuracy can be found at some points of the oscillatory region of the conical functions. The relative accuracy increases to 1013101410^{-13}\,-\,10^{-14} in the region of the monotonic regime of the functions where integral representations are computed (1<x<0-1<x<0).

Keywords

Cite

@article{arxiv.1306.0231,
  title  = {An improved algorithm and a Fortran 90 module for computing the conical function $P^m_{-1/2+i\tau}(x)$},
  author = {Amparo Gil and Javier Segura and Nico M. Temme},
  journal= {arXiv preprint arXiv:1306.0231},
  year   = {2015}
}

Comments

15 pages, 3 figures

R2 v1 2026-06-22T00:26:37.683Z