Yanchao Zhang, Chao Hang, Boris A. Malomed, Guoxiang Huang
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引用次数: 0
Abstract
Stable vortex solitons (VSs) are objects of great interest for fundamental
studies and various applications, including particle trapping, microscopy, data
encoding, and matter-wave gyroscopes. However, three-dimensional (3D) VSs with
high topological charges, supported by self-attractive nonlinearities, are
unstable against fragmentation, which eventually leads to internal blowup
(supercritical collapse) of the fragments. Here, we propose a scheme for
realizing stable 3D VSs with topological charges up to $5$ and $6$ in the two
components of a binary, Rydberg-dressed Bose-Einstein condensate (BEC) with
spin-orbit coupling (SOC). We show that, if the SOC strength exceeds a critical
value, the rotational symmetry of the VSs in the transverse plane gets broken,
resulting in separation of the two components. Nevertheless, the VSs with the
broken symmetry remain stable. The VS stability domains are identified in the
system's parameter space. Moreover, application of torque to the stable VSs
sets them in the state of robust gyroscopic precession.
稳定的涡旋孤子(VSs)是基础研究和各种应用(包括粒子捕获、显微镜、数据编码和物质波陀螺仪)中备受关注的对象。然而,在自吸引非线性的支持下,具有高拓扑电荷的三维(3D)VS 在破碎时是不稳定的,这最终会导致碎片的内部炸裂(超临界坍缩)。在这里,我们提出了一种方案,用于在具有自旋轨道耦合(SOC)的二元雷德贝格压制玻色-爱因斯坦凝聚体(BEC)的两个组成部分中实现稳定的三维 VS,其拓扑电荷高达 5 美元和 6 美元。我们的研究表明,如果自旋轨道耦合强度超过临界值,VSs 在横向平面上的旋转对称性就会被打破,导致两个分量分离。然而,对称性被破坏的 VS 仍保持稳定。在系统的参数空间中确定了 VS 稳定域。此外,对稳定的 VS 施加扭矩会使它们处于稳健的陀螺前冲状态。
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