The estimates for the number of the eigenvalues of abstract and differential operator functions
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We consider an operator function (F(\lambda)) for (\lambda\in(\sigma,\tau)\subseteq\mathbb R) whose values are semibounded selfadjoint operators in Hilbert space (\mathfrak H). Our main goal is to estimate the number (\mathcal N_F(\alpha,\beta)) of the eigenvalues of (F(\lambda)) on a segment ([\alpha,\beta)\Subset(\sigma,\tau)). In particular, we prove the estimates (\mathcal N_F(\alpha,\beta)\geqslant \nu_F(\beta)-\nu_F(\alpha)) and (\mathcal N_F(\alpha,\beta)= \nu_F(\beta)-\nu_F(\alpha)) where (\nu(\xi)) is the number of the negative eigenvalues of the operator (F(\xi)), (\xi\in(\sigma,\tau)). The obtained results are applied for the functions of ordinary differential operators on a finite interval.
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