学位论文详细信息
Coherent Spin Dynamics of a Spin-1 Bose-Einstein Condensate
Bose-Einstein condensate;BEC;Spinor condensate;All-optical BEC;Coherent spin mixing;AC Josephson effect;Tunneling;Miscibility;Spin domain;Atomic four-wave mixing;Spin waves;Single-mode approximation
Chang, Ming-Shien ; Physics
University:Georgia Institute of Technology
Department:Physics
关键词: Bose-Einstein condensate;    BEC;    Spinor condensate;    All-optical BEC;    Coherent spin mixing;    AC Josephson effect;    Tunneling;    Miscibility;    Spin domain;    Atomic four-wave mixing;    Spin waves;    Single-mode approximation;   
Others  :  https://smartech.gatech.edu/bitstream/1853/10547/1/chang_ming_shien_200605_phd.pdf
美国|英语
来源: SMARTech Repository
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【 摘 要 】

Bose-Einstein condensation (BEC) is a phenomenon in which identical bosons occupy the same quantum state below a certain critical temperature.A hallmark of BEC is the coherence between particlesevery particle shares the same quantum wavefunction and phase.This coherence has been demonstrated for the external (motional) degrees of freedom of the atomic condensates by interfering two condensates.In this thesis, the coherence is shown to extend to the internal spin degrees of freedom of a spin-1 Bose gas evidenced by the observed coherent and reversible spin-changing collisions. The observed coherent dynamics are analogous to Josephson oscillations in weakly connected superconductors and represent a type of matter-wave four-wave mixing.Control of the coherent evolution of the system using magnetic fields is also demonstrated.The studies on spinor condensates begin by creating spinor condensates directly using all-optical approaches that were first developed in our laboratory.All-optical formation of Bose-Einstein condensates (BEC) in 1D optical lattice and single focus trap geometries are developed and presented. These techniques offer considerable flexibility and speed compared to magnetic trap approaches, and the trapping potential can be essentially spin-independent and are ideally suited for studying spinor condensates.Using condensates with well-defined initial non-equilibrium spin configuration, spin mixing of F = 1 and F = 2 spinor condensates of rubidium-87 atoms confined in an optical trap is observed. The equilibrium spin configuration in the F = 1 manifold confirms that 87Rb is ferromagnetic. The coherent spinor dynamics are demonstrated by initiating spin mixing deterministically with a non-stationary spin population configuration. Finally, the interplay between the coherent spin mixing and spatial dynamics in spin-1 condensates with ferromagnetic interactions is investigated.

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