Stieltjes moment problem

In mathematics, the Stieltjes moment problem, named after Thomas Joannes Stieltjes, seeks necessary and sufficient conditions for a sequence (m₀, m₁, m₂, ...) to be of the form

${\displaystyle m_n={\displaystyle \underset{0}{\overset{\mathrm{\infty }}{\int }}}{x}^{n}d\mu (x)}$

for some measure μ. If such a function μ exists, one asks whether it is unique.

The essential difference between this and other well-known moment problems is that this is on a half-line [0, ∞), whereas in the Hausdorff moment problem one considers a bounded interval [0, 1], and in the Hamburger moment problem one considers the whole line (−∞, ∞).

Let

${\displaystyle {\mathrm{\Delta }}_n=\left[\begin{array}{ccccc}{m}_0& m_1& m_2& \cdots & m_n\\ m_1& m_2& m_3& \cdots & m_{n+1}\\ m_2& m_3& m_4& \cdots & m_{n+2}\\ ⋮& ⋮& ⋮& \ddots & ⋮\\ m_n& m_{n+1}& m_{n+2}& \cdots & m_{2n}\end{array}\right]}$

be a Hankel matrix, and

${\displaystyle {\mathrm{\Delta }}_n^{(1)}=\left[\begin{array}{ccccc}{m}_1& m_2& m_3& \cdots & m_{n+1}\\ m_2& m_3& m_4& \cdots & m_{n+2}\\ m_3& m_4& m_5& \cdots & m_{n+3}\\ ⋮& ⋮& ⋮& \ddots & ⋮\\ m_{n+1}& m_{n+2}& m_{n+3}& \cdots & m_{2n+1}\end{array}\right].}$

Then { m_n : n = 1, 2, 3, ... } is a moment sequence of some measure on ${\displaystyle [0,\mathrm{\infty })}$ with infinite support if and only if for all n, both

${\displaystyle \det ({\mathrm{\Delta }}_n)>0\mathrm{a}\mathrm{n}\mathrm{d}\det \left({\mathrm{\Delta }}_n^{(1)}\right)>0.}$

{ m_n : n = 1, 2, 3, ... } is a moment sequence of some measure on ${\displaystyle [0,\mathrm{\infty })}$ with finite support of size m if and only if for all ${\displaystyle n\le m}$, both

${\displaystyle \det ({\mathrm{\Delta }}_n)>0\mathrm{a}\mathrm{n}\mathrm{d}\det \left({\mathrm{\Delta }}_n^{(1)}\right)>0}$

and for all larger ${\displaystyle n}$

${\displaystyle \det ({\mathrm{\Delta }}_n)=0\mathrm{a}\mathrm{n}\mathrm{d}\det \left({\mathrm{\Delta }}_n^{(1)}\right)=0.}$

There are several sufficient conditions for uniqueness, for example, Carleman's condition, which states that the solution is unique if

${\displaystyle \sum _{n\ge 1}{m}_n^{-1/(2n)}=\mathrm{\infty }.}$

• Reed, Michael; Simon, Barry (1975), Fourier Analysis, Self-Adjointness, Methods of modern mathematical physics, 2, Academic Press, p. 341 (exercise 25), ISBN 0-12-585002-6 

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