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Paper detail

Sensing Atomic Motion from the Zero Point to Room Temperature with Ultrafast Atom Interferometry

We sense the motion of a trapped atomic ion using a sequence of state-dependent ultrafast momentum kicks. We use this atom interferometer to characterize a nearly-pure quantum state with $n=1$ phonon and accurately measure thermal states ranging from near the zero-point energy to $\bar{n}\sim 10^4$, with the possibility of extending at least 100 times higher in energy. The complete energy range of this method spans from the ground state to far outside of the Lamb-Dicke regime, where atomic motion is greater than the optical wavelength. Apart from thermometry, these interferometric techniques are useful for characterizing ultrafast entangling gates between multiple trapped ions.

preprint2016arXivOpen access
K. G. JohnsonB. NeyenhuisJ. MizrahiJ. D. Wong-CamposC. Monroe
physics.atom-phquant-ph
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K. G. JohnsonB. NeyenhuisJ. MizrahiJ. D. Wong-CamposC. Monroe

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