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Perturbation of volatility term in an SDE

Suppose $X, X^{\varepsilon}$, for $\varepsilon > 0$ are real valued stochastic processes satisfying the following SDE on $[0, T]$:

$dX = \mu(t, X_t) dt + \sigma (t, X_t) dW_t,$

$dX^{\varepsilon} = \mu(t, X^{\varepsilon}_t) dt + \sigma_{\varepsilon} (t, X^{\varepsilon}_t) dW_t,$

$X_0 = X^{\varepsilon}_0 = x_0$, for some $x_0 \in \mathbb R$.

with $\mu, \sigma, \sigma_{\epsilon}$ uniformly bounded and Lipschitz continuous with uniform Lipschitz constant.

Suppose it is known that for every $\varepsilon > 0$, $\sigma(t, X_t) = \sigma_{\varepsilon} (t, X^{\varepsilon}_t)$ for all $t$ in a set of Lebesgue measure $T - \varepsilon$.

Question: Is it true that $X^{\varepsilon} \to X$ uniformly in $t$ in probability?

Nate River
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