软核任意利勃-利尼格流体的双重方法

arXiv - PHYS - Quantum Gases Pub Date : 2024-07-08 DOI:arxiv-2407.06108

Gerard Valentí-Rojas, Patrik Öhberg

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引用次数: 0

摘要

量子物质的特性可以通过规场有效地改变。在两个空间维度上，这可以通过切尔恩-西蒙斯流-附着机制来说明，但这种机制在低维度上是不可能的。在这里，我们研究的是存在规量场的一维相互作用玻色气体。这个模型可以通过大规量变换显式地映射成一个相互作用的任意子系统，表明了类似于切尔-西蒙斯的统计嬗变。弱相互作用极限下的波哥留布夫频谱揭示了由统计相互作用引起的质子最小值的存在。在均场水平上，啁啾孑子被复原。如果把它们理解为量子束缚态，就可以很自然地把它们解释为与局域化的任子夸克粒子相对应。流体力学论证强调，由于黎曼-霍普非线性，波包传播过程中存在色散手性冲击波。数值计算显示了手性位移和冲击波的存在。

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Dual approach to soft-core anyonic Lieb-Liniger fluids

The identity of quantum matter can be effectively altered by means of gauge fields. In two spatial dimensions this is illustrated by the Chern-Simons flux-attachment mechanism, but such a mechanism is not possible in lower dimensions. Here, we study a one-dimensional interacting Bose gas in the presence of a gauge field. This model can be explicitly mapped into an interacting anyonic system by a large gauge transformation, indicating a statistical transmutation analogous to that of Chern-Simons. The Bogoliubov spectrum in the weakly-interacting limit reveals the presence of a roton minimum arising from the statistical interaction. At a mean-field level chiral solitons are recovered. Should these be understood as quantum bound states, it is natural to interpret them as corresponding to localised anyonic quasiparticles. Hydrodynamic arguments highlight the presence of dispersive chiral shock waves in the propagation of a wavepacket due to a Riemann-Hopf nonlinearity. Numerical calculations show the presence of both chiral soliton trains and shock waves.

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arXiv - PHYS - Quantum Gases

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