期刊
REPORTS ON PROGRESS IN PHYSICS
卷 85, 期 11, 页码 -出版社
IOP Publishing Ltd
DOI: 10.1088/1361-6633/ac95a9
关键词
integrable models; quantum cradle; generalized hydrodynamics; Tomonaga-Luttinger liquid; fractional exclusion statistics; quantum holonomy; spin-charge separation
资金
- NSFC [12134015, 11874393, 12121004]
In the past two decades, quantum engineering has made significant progress in creating genuine quantum many-body systems. Some solvable Yang-Baxter systems have been successfully realized and compared with their theoretical solutions. The new experimental developments show various one-dimensional phenomena. This article reviews these developments, provides explanations based on exact solutions, and highlights the uniqueness of one-dimensional quantum physics.
Over the past two decades quantum engineering has made significant advances in our ability to create genuine quantum many-body systems using ultracold atoms. In particular, some prototypical exactly solvable Yang-Baxter systems have been successfully realized allowing us to confront elegant and sophisticated exact solutions of these systems with their experimental counterparts. The new experimental developments show a variety of fundamental one-dimensional (1D) phenomena, ranging from the generalized hydrodynamics to dynamical fermionization, Tomonaga-Luttinger liquids, collective excitations, fractional exclusion statistics, quantum holonomy, spin-charge separation, competing orders with high spin symmetry and quantum impurity problems. This article briefly reviews these developments and provides rigorous understanding of those observed phenomena based on the exact solutions while highlighting the uniqueness of 1D quantum physics. The precision of atomic physics realizations of integrable many-body problems continues to inspire significant developments in mathematics and physics while at the same time offering the prospect to contribute to future quantum technology.
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