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Computable extensions of generalized fractional kinetic equations in astrophysics 被引量:1
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作者 Vinod Behari Lal Chaurasia Shared Chander Pandey 《Research in Astronomy and Astrophysics》 SCIE CAS CSCD 2010年第1期22-32,共11页
Fractional calculus and special functions have contributed a lot to mathematical physics and its various branches. The great use of mathematical physics in distinguished astrophysical problems has attracted astronomer... Fractional calculus and special functions have contributed a lot to mathematical physics and its various branches. The great use of mathematical physics in distinguished astrophysical problems has attracted astronomers and physicists to pay more attention to available mathematical tools that can be widely used in solving several problems of astrophysics/physics. In view of the great importance and usefulness of kinetic equations in certain astrophysical problems, the authors derive a generalized fractional kinetic equation involving the Lorenzo-Hartley function, a generalized function for fractional calculus. The fractional kinetic equation discussed here can be used to investigate a wide class of known (and possibly also new) fractional kinetic equations, hitherto scattered in the literature. A compact and easily computable solution is established in terms of the Lorenzo-Hartley function. Special cases, involving the generalized Mittag-Leffler function and the R-function, are considered. The obtained results imply the known results more precisely. 展开更多
关键词 fractional differential equations - Mittag-Leffler functions - reaction- diffusion problems - lorenzo-hartley function
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