On deficiency index for some second order vector differential operators
DOI:
https://doi.org/10.13108/2017-9-1-18Keywords:
quasi-derivative, quasi-differential expression, minimal closed symmetric differential operator, deficiency numbers, asymptotic of the fundamental system of solutions.Abstract
In this paper we consider the operators generated by the second order matrix linear symmetric quasi-differential expression $$ l[y]=-(P(y'-Ry))'-R^*P(y'-Ry)+Qy $$ on the set $[1,+\infty)$, where $P^{-1}(x)$, $Q(x)$ are Hermitian matrix functions and $R(x)$ is a complex matrix function of order $n$ with entries $p_{ij}(x),q_{ij}(x),r_{ij}(x)\in L^1_{loc}[1,+\infty)$ ($i,j=1,2,\dots,n$). We describe the minimal closed symmetric operator $L_0$ generated by this expression in the Hilbert space $L^2_n[1,+\infty)$. For this operator we prove an analogue of the Orlov's theorem on the deficiency index of linear scalar differential operators.Downloads
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20.03.2017
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