Cognitive psychologists have hypothesized that episodic recall is caused by the recovery of a gradually-changing state ofspatiotemporal context. Little is known about the processes that cause successful recovery of this temporal context. Recentbehavioral evidence suggests that in continuous recognition tasks, the retrieval time necessary to recover a previous contextdepends on the recency of the memory. Previous work has found that the non-decision time to retrieve a memory goes upwith the logarithm of its recency. This suggests retrieval of temporal context proceeds via scanning along a compressedtimeline but also contradicts earlier work suggesting that recency affects the drift rate of retrieval more than the non-decision time. Here we explore the effect of multiple repetitions on this counterintuitive result in continuous recognition.Our results find that while repeating items speeds up the time to access a memory, the recency effect persists out to at leastfive repetitions.