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Paper detail

A self-interfering clock as a "which path" witness

We experimentally demonstrate a new interferometry paradigm: a self-interfering clock. We split a clock into two spatially separated wave packets, and observe an interference pattern with a stable phase showing that the splitting was coherent, i.e., the clock was in two places simultaneously. We then make the clock wave packets "tick" at different rates to simulate a proper time lag. The entanglement between the clock's time and its path yields "which path" information, which affects the visibility of the clock's self-interference. By contrast, in standard interferometry, time cannot yield "which path" information. As a clock we use an atom prepared in a superposition of two spin states. This first proof-of-principle experiment may have far-reaching implications for the study of time and general relativity and their impact on fundamental quantum effects such as decoherence and wave packet collapse.

preprint2015arXivOpen access
Yair MargalitZhifan ZhouShimon MachlufDaniel RohrlichYonathan JaphaRon Folman
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Yair MargalitZhifan ZhouShimon MachlufDaniel RohrlichYonathan JaphaRon Folman

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