If you're interested in asymptotic behavior, it may be of interest to approximate this process as a product of uniform random distribution.
The product of $t$ uniform random variable has probability density
$$p_t(x) = \frac{~|\log x|^{t-1}}{(t-1)!}$$
In particular
$$\int_{0}^{1/n} p_t(x)~\textrm{d}x = \frac{\Gamma(t,\log n)}{\Gamma(t)}$$
might be a decent estimate of $P(x_t)=1$