Location and scale behaviour of the quantiles of a natural exponential family

Abstract

Let P0 be a probability on the real line generating a natural exponential family (Pt)t∈ R. Fix α in (0,1). We show that the property that Pt((-∞,t)) ≤ α ≤ Pt((-∞,t]) for all t implies that there exists a number μα such that P0 is the Gaussian distribution N(μα,1). In other terms, if for all t, t is a quantile of Pt associated to some threshold α∈ (0,1), then the exponential family must be Gaussian. The case α=1/2, i.e. t is always a median of Pt, has been considered in Letac et al. (2018). Analogously let Q be a measure on [0,∞) generating a natural exponential family (Q-t)t>0. We show that Q-t([0,t-1))≤ α ≤ Q-t([0,t-1]) for all t>0 implies that there exists a number p=pα>0 such that Q(dx) xp-1dx, and thus Q-t has to be a gamma distribution with parameters p and t.