Mathematics – Spectral Theory
Scientific paper
2006-07-31
Mathematics
Spectral Theory
Scientific paper
Consider the Jacobi operators $\cJ$ given by $(\cJ y)_n=a_ny_{n+1}+b_ny_n+a_{n-1}^*y_{n-1}$, $y_n\in \C^m$ (here $y_0=y_{p+1}=0$), where $b_n=b_n^*$ and $a_n:\det a_n\ne 0$ are the sequences of $m\ts m$ matrices, $n=1,..,p$. We study two cases: (i) $a_n=a_n^*>0$; (ii) $a_n$ is a lower triangular matrix with real positive entries on the diagonal (the matrix $\cJ$ is $(2m+1)$-band $mp\ts mp$ matrix with positive entries on the first and the last diagonals). The spectrum of $\cJ$ is a finite sequence of real eigenvalues $\l_1<...<\l_N$, where each eigenvalue $\l_j$ has multiplicity $k_j\le m$. We show that the mapping $(a,b)\mapsto \{(\l_j,k_j)\}_1^N\oplus \{additional spectral data \}$ is 1-to-1 and onto. In both cases (i), \nolinebreak (ii), we give the complete solution of the inverse problem.
Brüning Jochen
Chelkak Dmitry
Korotyaev Evgeny
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