On a fractional linear birth--death process

Abstract

In this paper, we introduce and examine a fractional linear birth--death process N(t), t>0, whose fractionality is obtained by replacing the time derivative with a fractional derivative in the system of difference-differential equations governing the state probabilities pk(t), t>0, k≥0. We present a subordination relationship connecting N(t), t>0, with the classical birth--death process N(t), t>0, by means of the time process T2(t), t>0, whose distribution is related to a time-fractional diffusion equation. We obtain explicit formulas for the extinction probability p0(t) and the state probabilities pk(t), t>0, k≥1, in the three relevant cases λ>μ, λ<μ, λ=μ (where λ and μ are, respectively, the birth and death rates) and discuss their behaviour in specific situations. We highlight the connection of the fractional linear birth--death process with the fractional pure birth process. Finally, the mean values EN(t) and VarN(t) are derived and analyzed.