32-digit values of the first 100 recurrence coefficients, obtained by discretization, for a radiative transfer weight function with parameter c=2/3

<p>32-digit values of the first 100 recurrence coefficients for orthogonal polynomials relative to the weight function w(x)=exp(-1/x) on [0,c], c=2/3, are computed by a general-purpose discretization procedure using the routine sr_radtrans_dis(32,100), where c=2/3 and dig=34 have to be entered when prompted. The value dig=34 has been determined by the routine dig_radtrans_dis(100,32,2,32). The software provided in this dataset allows generating an arbitrary number N of recurrence coefficients for an arbitrary parameter c > 0 as well as for different precisions. The polynomials here obtained are closely related to the radiative transfer polynomials in Section 4 of Martin J. Gander and Alan H. Karp, "Stable computation of high order Gauss quadrature rules using discretization for measures in radiation transfer", Journal of Quantitative Spectroscopy & Radiative Transfer 68 (2001), 213-223. The alpha-coefficients of the latter, as well as the first beta-coefficient, are obtained by dividing ours by c, and the remaining beta-coefficients by dividing ours by c^2. The results are in complete agreement with those produced by sr_radtrans_cheb.m (cf. doi: <a href="https://purr.purdue.edu/publications/2315/1" target="_blank"><span class="doi">10.4231/R7N014H9</span></a>), but are obtained about six times more slowly.</p>