| @cindex transport functions |
| |
| The transport functions @math{J(n,x)} are defined by the integral |
| representations |
| @c{$J(n,x) := \int_0^x dt \, t^n e^t /(e^t - 1)^2$} |
| @math{J(n,x) := \int_0^x dt t^n e^t /(e^t - 1)^2}. |
| They are declared in the header file @file{gsl_sf_transport.h}. |
| |
| @deftypefun double gsl_sf_transport_2 (double @var{x}) |
| @deftypefunx int gsl_sf_transport_2_e (double @var{x}, gsl_sf_result * @var{result}) |
| These routines compute the transport function @math{J(2,x)}. |
| @comment Exceptional Return Values: GSL_EDOM |
| @end deftypefun |
| |
| |
| @deftypefun double gsl_sf_transport_3 (double @var{x}) |
| @deftypefunx int gsl_sf_transport_3_e (double @var{x}, gsl_sf_result * @var{result}) |
| These routines compute the transport function @math{J(3,x)}. |
| @comment Exceptional Return Values: GSL_EDOM, GSL_EUNDRFLW |
| @end deftypefun |
| |
| |
| @deftypefun double gsl_sf_transport_4 (double @var{x}) |
| @deftypefunx int gsl_sf_transport_4_e (double @var{x}, gsl_sf_result * @var{result}) |
| These routines compute the transport function @math{J(4,x)}. |
| @comment Exceptional Return Values: GSL_EDOM, GSL_EUNDRFLW |
| @end deftypefun |
| |
| |
| @deftypefun double gsl_sf_transport_5 (double @var{x}) |
| @deftypefunx int gsl_sf_transport_5_e (double @var{x}, gsl_sf_result * @var{result}) |
| These routines compute the transport function @math{J(5,x)}. |
| @comment Exceptional Return Values: GSL_EDOM, GSL_EUNDRFLW |
| @end deftypefun |
