Quantum coherence between two atoms beyond Q=1015

Abstract

We place two atoms in quantum superposition states and observe coherent phase evolution for 3.4x1015 cycles. Correlation signals from the two atoms yield information about their relative phase even after the probe radiation has decohered. This technique was applied to a frequency comparison of two Al+ ions, where a fractional uncertainty of 3.7+1.0-0.8x10-16/τ/s was observed. Two measures of the Q-factor are reported: The Q-factor derived from quantum coherence is 3.4+2.4-1.1x1016, and the spectroscopic Q-factor for a Ramsey time of 3 s is 6.7x1015. As part of this experiment, we demonstrate a method to detect the individual quantum states of two Al+ ions in a Mg+-Al+-Al+ linear ion chain without spatially resolving the ions.