Decay bounds for Bernstein functions of Hermitian matrices with applications to the fractional graph Laplacian
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For many functions of matrices f(A), it is known that their entries exhibit a rapid – often exponential or even superexponential – decay away from the sparsity pattern of the matrix A. In this paper we specifically focus on the class of Bernstein functions, which contains the fractional powers A^α, α∈ (0,1) as an important special case, and derive new decay bounds by exploiting known results for the matrix exponential in conjunction with the Lévy–Khintchine integral representation. As a particular special case, we find a result concerning the power law decay of the strength of connection in nonlocal network dynamics described by the fractional graph Laplacian, which improves upon known results from the literature by doubling the exponent in the power law.
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