Jacek Dobrzyniecki scite author profile

Jacek Dobrzyniecki

4Publications

95Citation Statements Received

338Citation Statements Given

How they've been cited

How they cite others

248

324

Affiliations

Polish Academy of Sciences, Czech Academy of Sciences, Institute of Physics, Institute of Physics

Publications

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Dynamics of a few interacting bosons escaping from an open well

Dobrzyniecki

Sowiński

2018

Phys. Rev. A

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The dynamics of a few ultra-cold bosons tunneling from a one-dimensional potential well into an open space is studied. In such a system several decay channels can be distinguished, each corresponding to a different number of bosons escaping simultaneously. We show that as the interparticle interaction strength is changed, the system undergoes transitions between distinct regimes characterized by the dominance of different decay channels. These transitions are reflected in the behavior of the decay rate of the system, which is measurable experimentally. By means of a simple theoretical description, we show that the transitions occur at the points where a new decay channel becomes energetically viable. The results provide insight into the behavior of decaying few-body systems and may have potential interest for experiments.

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Exact dynamics of two ultra-cold bosons confined in a one-dimensional double-well potential

Dobrzyniecki¹,

Sowiński²

2016

Eur. Phys. J. D

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Abstract. The dynamics of two ultra-cold bosons confined in a one-dimensional double-well potential is studied. We compare the exact dynamics governed by a full two-body Hamiltonian with the dynamics obtained in a two-mode model approximation. We show that for sufficiently large interactions the twomode model breaks down and higher single-particle states have to be taken into account to describe the dynamical properties of the system correctly.

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Effective three-body interactions for bosons in a double-well confinement

Dobrzyniecki

Nielsen

et al. 2018

Phys. Rev. A

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When describing the low-energy physics of bosons in a double-well potential with a high barrier between the wells and sufficiently weak atom-atom interactions, one can to a good approximation ignore the high energy states and thereby obtain an effective two-mode model. Here, we show that the regime in which the two-mode model is valid can be extended by adding an on-site three-body interaction term and a three-body interaction-induced tunneling term to the two-mode Hamiltonian. These terms effectively account for virtual transitions to the higher energy states. We determine appropriate strengths of the three-body terms by an optimization of the minimal value of the wave function overlap within a certain time window. Considering different initial states with three or four atoms, we find that the resulting model accurately captures the dynamics of the system for parameters where the two-mode model without the three-body terms is poor. We also investigate the dependence of the strengths of the three-body terms on the barrier height and the atom-atom interaction strength. The optimal three-body interaction strengths depend on the initial state of the system.

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Momentum correlations of a few ultracold bosons escaping from an open well

Dobrzyniecki

Sowiński²

2019

Phys. Rev. A

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The dynamical properties of a one-dimensional system of two and three bosons escaping from an open potential well are studied in terms of the momentum distributions of particles. In the case of a two-boson system, it is shown that the single-and two-particle momentum distributions undergo a specific transition as the interaction strength is tuned through the point where tunneling switches from the pair tunneling to the sequential one. Characteristic features in the momentum spectra can be used to quantitatively determine the participation of specific decay processes. A corresponding analysis is also performed for the three-boson system, showing a scheme for generalizations to higher particle numbers. For completeness, the time-dependent Tan's contact of the system is also examined and its dynamics is found to undergo a similar transition. The results provide insight into the dynamics of decaying few-body systems and offer potential interest for experimental research. arXiv:1902.03069v3 [cond-mat.quant-gas]

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