Precise wave-function engineering with magnetic resonance
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]
|Collections||ANU Research Publications|
|Source:||Physical Review A - Atomic, Molecular, and Optical Physics|
|Access Rights:||Open Access|
|TMP370573037202245124750.pdf||657.28 kB||Adobe PDF|
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