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相关论文: Control of an atom laser using feedback

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Weak measurement in tandem with real-time feedback control is a new route toward engineering novel non-equilibrium quantum matter. Here we develop a theoretical toolbox for quantum feedback control of multicomponent Bose-Einstein…

量子气体 · 物理学 2020-12-11 Hilary M. Hurst , Shangjie Guo , I. B. Spielman

The linewidth of an atom laser is limited by density fluctuations in the Bose-Einstein condensate (BEC) from which the atom laser beam is outcoupled. In this paper we show that a stable spatial mode for an interacting BEC can be generated…

原子物理 · 物理学 2013-02-15 Stuart S. Szigeti , Michael R. Hush , Andre R. R. Carvalho , Joseph J. Hope

We present a simple example of quantum control in Bose-Einstein condensates via Feshbach resonance. By tuning an initially positive scattering length to zero, it is possible to generate oscillatory motion of the condensate that results from…

软凝聚态物质 · 物理学 2007-05-23 S. Choi , N. P. Bigelow

We consider the theory of feedback control of a Bose-Einstein condensate (BEC) confined in a harmonic trap under a continuous measurement constructed via non-destructive imaging. A filtering theory approach is used to derive a stochastic…

量子物理 · 物理学 2009-08-07 S. S. Szigeti , M. R. Hush , A. R. R. Carvalho , J. J. Hope

We demonstrate how to use feedback to control the internal states of trapped coherent ensembles of two-level atoms, and to protect a superposition state against the decoherence induced by a collective noise. Our feedback scheme is based on…

原子物理 · 物理学 2015-05-05 T. Vanderbruggen , R. Kohlhaas , A. Bertoldi , S. Bernon , A. Aspect , A. Landragin , P. Bouyer

Feedback is a general idea of modifying system behaviour depending on the measurement outcomes. It spreads from natural sciences, engineering, and artificial intelligence to contemporary classical and rock music. Recently, feedback has been…

Gross-Pitaevskii equation with gain is used to model Bose Einstein condensation (BEC) fed by the surrounding thermal cloud. It is shown that the number of atoms continuously injected into BEC from the reservoir can be controlled by applying…

其他凝聚态物理 · 物理学 2009-11-11 C. Yuce , A. Kilic

Cold atomic ensembles and spinor Bose-Einstein condensates (BECs) are potential candidates for quantum memories as they have long coherence times and can be coherently controlled. Unlike most candidates for quantum memories which are…

量子物理 · 物理学 2016-09-28 Shi Wang , Tim Byrnes

We present how to control interactions between solitons, either bright or dark, in Bose-Einstein condensates by synchronizing Feshbach resonance and harmonic trap. Our results show that as long as the scattering length is to be modulated in…

其他凝聚态物理 · 物理学 2008-08-29 Xiao-Fei Zhang , Qin Yang , Jie-Fang Zhang , X. Z. Chen , W. M. Liu

Off-resonant optical imaging is the most popular method for continuous monitoring of a Bose-Einstein condensate (BEC). However, the disturbance caused by scattered photons places a serious limitation on the lifetime of such…

量子气体 · 物理学 2015-06-01 M. R. Hush , S. S. Szigeti , A. R. R. Carvalho , J. J. Hope

A continuous atom laser will almost certainly have a linewidth dominated by the effect of the atomic interaction energy, which turns fluctuations in the condensate atom number into fluctuations in the condensate frequency. These correlated…

量子物理 · 物理学 2009-11-07 H. M. Wiseman , L. K. Thomsen

Open quantum systems can be systematically controlled by making changes to their environment. A well-known example is the spontaneous radiative decay of an electronically excited emitter, such as an atom or a molecule, which is…

量子气体 · 物理学 2021-10-27 Mario Vretenar , Chris Toebes , Jan Klaers

Continuously measured interacting quantum systems almost invariably heat, causing loss of quantum coherence. Here, we study Bose-Einstein condensates (BECs) subject to repeated weak measurement of the atomic density and describe several…

量子气体 · 物理学 2023-06-28 Evan P. Yamaguchi , Hilary M. Hurst , I. B. Spielman

Optical control of atomic interactions in a quantum gas is a long-sought goal of cold atom research. Previous experiments have been hindered by short lifetimes and parasitic deformation of the trap potential. Here, we develop and implement…

量子气体 · 物理学 2015-10-14 Logan W. Clark , Li-Chung Ha , Chen-Yu Xu , Cheng Chin

It is well known that in the presence of a ring cavity the light scattering from a uniform atomic ensemble can become unstable resulting in the collective atomic recoil lasing. This is the result of a positive feedback due to the cavity. We…

量子物理 · 物理学 2016-01-12 Denis A. Ivanov , Tatiana Yu. Ivanova , Igor B. Mekhov

We exploit the variation of the atomic interaction in order to move ultra-cold atoms across an AC-driven periodic lattice. By breaking relevant symmetries, a gathering of atoms is achieved. Accurate control of the gathered atoms positions…

斑图形成与孤子 · 物理学 2015-05-18 L. Morales-Molina , E. Arevalo

These notes present simple theoretical approaches to study Bose-Einstein condensation in trapped atomic gases and their comparison to recent experimental results : - the ideal Bose gas model - Fermi pseudopotential to model the atomic…

凝聚态物理 · 物理学 2022-03-23 Yvan Castin

We apply quantum filtering and control to a particle in a harmonic trap under continuous position measurement, and show that a simple static feedback law can be used to cool the system. The final steady state is Gaussian and dependent on…

量子物理 · 物理学 2009-11-13 S. D. Wilson , A. R. R. Carvalho , J. J. Hope , M. R. James

Bose-Einstein condensates (BECs) offer the potential to examine quantum behavior at large length and time scales, as well as forming promising candidates for quantum technology applications. Thus, the manipulation of BECs using control…

量子物理 · 物理学 2016-05-25 David Hocker , Julia Yan , Herschel Rabitz

We show that controlled dissipation can be used as a tool for exploring fundamental phenomena and managing mesoscopic systems of cold atoms and Bose-Einstein condensates. Even the simplest boson-Josephson junction, that is, a Bose-Einstein…

量子气体 · 物理学 2015-05-18 V. S. Shchesnovich , V. V. Konotop
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