Dynamics of a tunable superfluid junction

Dynamics of a tunable superfluid junction

We study the population dynamics of a Bose-Einstein condensate in a double-well potential throughout the crossover from Josephson dynamics to hydrodynamics. At barriers higher than the chemical potential, we observe slow oscillations well described by a Josephson model. In the limit of low barriers,...

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Veröffentlicht in:Physical review letters 2011-01, Vol.106 (2), p.025302-025302, Article 025302
Hauptverfasser: LeBlanc, L J, Bardon, A B, McKeever, J, Extavour, M H T, Jervis, D, Thywissen, J H, Piazza, F, Smerzi, A
Format: Artikel
Sprache:eng
Schlagworte:
AMPLITUDES
BOSE-EINSTEIN CONDENSATION
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
COMPUTERIZED SIMULATION
FLUID MECHANICS
HYDRODYNAMIC MODEL
HYDRODYNAMICS
INTERFEROMETERS
JOSEPHSON EFFECT
JOSEPHSON JUNCTIONS
MATHEMATICAL MODELS
MEASURING INSTRUMENTS
MECHANICS
OSCILLATIONS
PARTICLE MODELS
POTENTIALS
SIMULATION
STATISTICAL MODELS
SUPERCONDUCTING JUNCTIONS
SUPERFLUIDITY
THERMODYNAMIC MODEL
TRAPPING
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Beschreibung
Zusammenfassung:We study the population dynamics of a Bose-Einstein condensate in a double-well potential throughout the crossover from Josephson dynamics to hydrodynamics. At barriers higher than the chemical potential, we observe slow oscillations well described by a Josephson model. In the limit of low barriers, the fundamental frequency agrees with a simple hydrodynamic model, but we also observe a second, higher frequency. A full numerical simulation of the Gross-Pitaevskii equation giving the frequencies and amplitudes of the observed modes between these two limits is compared to the data and is used to understand the origin of the higher mode. Implications for trapped matter-wave interferometers are discussed.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.106.025302