Common Spectral Eigenvalue Spectra for Random Convolutions Generated by Hadamard Triples

Abstract

Lu proved that the set T:=\t∈Z\0\:(q,D,tL) forms a Hadamard triple\ constitutes a spectral eigenvalue set for μq,D, where (q,D,L) is a Hadamard triple. And they prove for s ∈ [0, \#D q], the corresponding spectra form a family of cardinality continuum. In this paper, we study Moran measures formed by random convolutions of finite Hadamard triples. Let μ=δM1-1D1*δM2-1D2*·s, Mk=q1q2·s qk, where the factors are produced from finitely many triples \(Nj,Bj,Lj):1 j m\, (ωk)k=1∞∈\1,2,…,m\ N, and nk∈ N+, by setting qk=Nωknk, Dk=Bωk, Ek=Nωknk-1Lωk. Assume a non-full-digit gap ρ:=1 j mNj\#Bj>1. For the common Hadamard triple multiplier set T*:=j=1m\t∈Z\0\:(Nj,Bj,tLj) is a Hadamard triple\, Our main result is that, for every 0 s κω:=R∞Σr=1R \#DrΣr=1R qr, there exist continuum many countable sets Λ⊂Z such that tΛ is a spectrum of μ for every t∈T* and BeΛ=s.