On the extreme eigenvalues and asymptotic conditioning of a class of Toeplitz matrix-sequences arising from fractional problems
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The analysis of the spectral features of a Toeplitz matrix-sequence {T_n(f)}_n∈ℕ, generated by a symbol f∈ L^1([-π,π]), real-valued almost everywhere (a.e.), has been provided in great detail in the last century, as well as the study of the conditioning, when f is nonnegative a.e. Here we consider a novel type of problem arising in the numerical approximation of distributed-order fractional differential equations (FDEs), where the matrices under consideration take the form 𝒯_n=c_0T_n(f_0)+c_1 h^h T_n(f_1)+c_2 h^2h T_n(f_2)+⋯+c_n-1 h^(n-1)hT_n(f_n-1), c_0,c_1,…, c_n-1∈ [c_*,c^*], c^*≥ c_*>0, independent of n, h=1/n, f_j∼ g_j, g_j=|θ|^2-jh, j=0,…,n-1. Since the resulting generating function depends on n, the standard theory cannot be applied and the analysis has to be performed using new ideas. Few selected numerical experiments are presented, also in connection with matrices that come from distributed-order FDE problems, and the adherence with the theoretical analysis is discussed together with open questions and future investigations.
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