In the mathematical theory of probability, Blumenthal's zero–one law,[1] named after Robert McCallum Blumenthal, is a statement about the nature of the beginnings of right continuous Feller process.
Loosely, it states that any right continuous Feller process on
[ 0 , ∞ )
{\displaystyle [0,\infty )}
starting from deterministic point has also deterministic initial movement.
Suppose that
t
: t ≥ 0 )
is an adapted right continuous Feller process on a probability space
,
t
is constant with probability one.
:= σ (
Then any event in the germ sigma algebra
Suppose that
is an adapted stochastic process on a probability space
is constant with probability one.
has Markov property with respect to the filtration
then any event
Note that every right continuous Feller process on a probability space
has strong Markov property with respect to the filtration