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[Bhatia.Matrix Analysis.Solutions to Exercises and Problems]ExI.2.6

If $\sen{A}<1$, then $I-A$ is invertible, and $$\bex (I-A)^{-1}=I+A+A^2+\cdots, \eex$$ aa convergent power series. This is called the Neumann series.

 

Solution.  Since $\sen{A}<1$, $$\bex \sum_{n=0}^\infty \sen{A}^n=\frac{1}{1-\sen{A}}<\infty. \eex$$ Due to the completeness of the matrix space, $\dps{\sum_{n=0}^\infty A_n}$ converges. Since $$\bex (I-A)(I+\cdots+A^{n-1})=I-A^n, \eex$$ we may take limit to get $$\bex (I-A)\cdot \sum_{n=0}^\infty A^n=I. \eex$$

[Bhatia.Matrix Analysis.Solutions to Exercises and Problems]ExI.2.6