I am taking my first steps in Ergodic theory and was wondering about a thing:
Given the measure $\mu: R \rightarrow R$ s.t.
$$ \mu(B) = \int_{B} \frac{1}{\sqrt {2\pi }} e^{\frac{x^{2}}{2}} \, dx $$
Does there exist a $\mu$ preserving non trivial map $T: R \rightarrow R$ such that $T$ is ergodic, i.e., for every $B$ in the Borellians s.t. $T^{-1}(B) = B$ we have $\mu(B) \in \{0,1 \} $ ?
Let $F$ be the cumulative distribution function of the probability measure $\mu$, so $F: \mathbb R \to (0,1)$ is $1-1$ onto and $\mu(A) = m(F(A))$ for any Borel set $A$, where $m$ is Lebesgue measure. Take any ergodic Lebesgue measure preserving map $S$ on $(0,1)$, and $T = F^{-1} \circ S \circ F$ is $\mu$-preserving and ergodic on $\mathbb R$.