Abstract
In this article, we consider mild solutions to a class of impulsive fractional evolution equations of order $0<\alpha<1$. After analyzing analytic results reported in the literature using Mittag-Leffer function, $\alpha$-resolvent operator theory, we propose a more appropriate new definition of mild solutions for impulsive fractional evolution equations by replacing the impulse term operator $S_\alpha(t-t_i)$ with $S_\alpha(t)S_\alpha^{-1}(t_i)$, where $S_\alpha^{-1}(t_i)$ denotes the inverse of the fractional solution operator $S_\alpha(t)$ at $t=t_i, (i=1,2,\cdots m)$.
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