Analytic representations of standard and extended non-resonant thermonuclear functions with depleted tail through the pathway model

?�?�N�?� ?? ??N�?�??N? ??N??�?�?????�N�???? : 2011-09-23T09:00:54Z

????N�??N�N� ??N??�?�?????�N�???? ?? ????N?N�??N�N?N�N� :
D. Kumar
H. J. Haubold

??N?N�?�???� ???� ?�N?N�???�?�-???�???�?????�: ??N?N�?�???� ???� ?�N?N�???�?�-???�???�?????� ???� ???�?????�???�
?s?????�??N�?�N�???? ?? cN�?�N�N??�: 13 pages, LaTeX
?Y?�N�????N�???�N? ???�N�?�????N�??N?: astro-ph.SR

?�N??� ???�N�?�????N�???? : astro-ph.SR

?sN�?�N�?????? ???�?�??N� N?N�?�N�N???: The method for the evaluation of the non-resonant thermonuclear function in the Maxwell-Boltzmann case with depleted tail is discussed. Closed forms of the analytical results are obtained in computational format, and written in terms of the H-function in two variables. The standard non-resonant cases are extended to Tsallis reaction rates through the pathway model. Behavior of the depleted non-resonant thermonuclear function is studied. A comparison of the Maxwell-Boltzmann energy distribution with a more general energy distribution called pathway energy distribution is also done.

Category: Physics