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Precise wave-function engineering with magnetic resonance

Wigley, Paul; Starkey, L. M.; Szigeti, S. S.; Jasperse, M.; Hope, Joseph; Turner, L. D.; Anderson, R. P.


Controlling quantum fluids at their fundamental length scale will yield superlative quantum simulators, precision sensors, and spintronic devices. This scale is typically below the optical diffraction limit, precluding precise wave-function engineering using optical potentials alone. We present a protocol to rapidly control the phase and density of a quantum fluid down to the healing length scale using strong time-dependent coupling between internal states of the fluid in a magnetic field...[Show more]

CollectionsANU Research Publications
Date published: 2017
Type: Journal article
Source: Physical Review A - Atomic, Molecular, and Optical Physics
DOI: 10.1103/PhysRevA.96.013612
Access Rights: Open Access


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