Nayak's theorem for compact operators

Abstract

Let A be an m× m complex matrix and let λ 1, λ 2, … , λ m be the eigenvalues of A arranged such that |λ 1|≥ |λ 2|≥ ·s ≥ |λ m| and for n≥ 1, let s(n)1≥ s(n)2≥ ·s ≥ s(n)m be the singular values of An. Then a famous theorem of Yamamoto (1967) states that n ∞(s(n)j )1n= |λ j|, ~~∀ \,1≤ j≤ m. Recently S. Nayak strengthened this result very significantly by showing that the sequence of matrices |An|1n itself converges to a positive matrix B whose eigenvalues are |λ 1|,|λ 2|, … , |λ m|. Here this theorem has been extended to arbitrary compact operators on infinite dimensional complex separable Hilbert spaces. The proof makes use of Nayak's theorem, Stone-Weirstrass theorem, Borel-Caratheodory theorem and some technical results of Anselone and Palmer on collectively compact operators. Simple examples show that the result does not hold for general bounded operators.