Photo by miteneva from unsplash
In this paper, we focus on the generalized Marcum function of the second kind of order $$\nu >0$$ , defined by $$\begin{aligned} R_{\nu }(a,b)=\frac{c_{a,\nu }}{a^{\nu -1}} \int _b ^ {\infty… Click to show full abstract
In this paper, we focus on the generalized Marcum function of the second kind of order $$\nu >0$$ , defined by $$\begin{aligned} R_{\nu }(a,b)=\frac{c_{a,\nu }}{a^{\nu -1}} \int _b ^ {\infty } t^{\nu } e^{-\frac{t^2+a^2}{2}}K_{\nu -1}(at)\mathrm{d}t, \end{aligned}$$ where $$a>0, b\ge 0,$$ $$K_{\nu }$$ stands for the modified Bessel function of the second kind, and $$c_{a,\nu }$$ is a constant depending on a and $$\nu $$ such that $$R_{\nu }(a,0)=1.$$ Our aim is to find some new tight bounds for the generalized Marcum function of the second kind and compare them with the existing bounds. In order to deduce these bounds, we include the monotonicity properties of various functions containing modified Bessel functions of the second kind as our main tools. Moreover, we demonstrate that our bounds in some sense are the best possible ones.
Journal Title: Ramanujan Journal
Year Published: 2021
Link to full text (if available)
Share on Social Media: Sign Up to like & get
recommendations!