Measure of Stieltjes Function of Measure

Theorem
Let $\mu$ be a measure on $\mathcal B \left({\R}\right)$, the Borel $\sigma$-algebra on $\R$.

Suppose that for all $n \in \N$, $\mu$ satisfies:


 * $\mu \left({ \left[{-n \,.\,.\, n}\right) \ }\right) < +\infty$

Let $f_\mu$ be the Stieltjes function of $\mu$.

Let $\mu_{f_\mu}$ be the measure of $f_\mu$.

Then $\mu_{f_\mu} = \mu$.

Proof
From Pre-Measure of Finite Stieltjes Function Extends to Unique Measure, it suffices to verify that:


 * $\mu_{f_\mu} \left({\left[{a \,.\,.\, b}\right)}\right) = \mu \left({\left[{a \,.\,.\, b}\right)}\right)$

for all half-open intervals $\left[{a \,.\,.\, b}\right)$.

Now we have:

If either $a = 0$ or $b = 0$, the result follows immediately from the definition of $f_\mu$.

Now suppose that $a < b < 0$.

Then:

Finally, let $0 < a < b$.

Then:

The final case $a < 0 < b$ is a trivial consequence of Measure is Finitely Additive Function.

Hence it must be that $\mu_{f_\mu} = \mu$.