Your search keyword '"Hu, Shijie"' showing total 6 results

1. Anyonic phase transitions in the 1D extended Hubbard model with fractional statistics

Author

Bonkhoff, Martin, Jägering, Kevin, Hu, Shijie, Pelster, Axel, Eggert, Sebastian, and Schneider, Imke

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Quantum Gases

Abstract

We study one-dimensional (1D) lattice anyons with extended Hubbard interactions at unit filling using bosonization and numerical simulations. The behavior can be continuously tuned from Bosonic to Fermionic behavior by adjusting the topological exchange angle $\theta$, which leads to a competition of different instabilities. We present the bosonization theory in presence of dynamic gauge fields, which predicts a phase diagrams of four different gapped phases with distinct dominant correlations. Advanced numerical simulations determine and analyze the exact phase transitions between Mott insulator, charge density wave, dimerized state, and Haldane insulator, all of which meet at a multi-critical line in the parameter space of anyonic angle $\theta$, onsite interaction $U$, and nearest neighbor repulsion $V$. Superfluid and pair-superfluid phases are stable in a region of small $V$., Comment: 16 pages, 9 figures, more details and the final version can be found at https://www.physik.uni-kl.de/eggert/

Published

2024

2. Realization of a period-3 coplanar state in one-dimensional spin-orbit coupled optical lattice

Author

Chu, Yida, Hu, Shijie, and Wang, Tao

Subjects

Condensed Matter - Quantum Gases

Abstract

In ultracold atoms, achieving a period-$3$ structure poses a significant challenge. In this work, we propose a three-sublattice spin-flop transition mechanism, differing from the two-sublattice counterpart used to explain the emergence of ferrimagnetic orders in higher dimensions. Guided by this mechanism, we design a setup of alkaline-earth-metal atoms to create a spin-orbit coupled optical lattice, where we identify a triplet-fold degenerate $YX\bar{Y}$ state with a period-$3$ coplanar spin ordering within the deep Mott-insulating phase region of the ground-state phase diagram. The $YX\bar{Y}$ state is protected by a finite gap, and its characteristic angle can be finely tuned by specific setup parameters. Moreover, we use the Rabi spectroscopy technique to detect the $YX\bar{Y}$ state. Our work not only shows the feasibility of achieving a period-$3$ structure \textit{via} the new mechanism but also suggests its potential applications for exploring other periodic structures in optical lattices.

Published

2024

3. Quantum phase diagram for two species hardcore bosons in one-dimensional optical lattices with the resonantly driven Rabi frequency

Author

Zhong, Peigeng, Wang, Tao, Hu, Shijie, and Lin, Haiqing

Subjects

Condensed Matter - Quantum Gases

Abstract

We propose an experimental realization of the time-periodically modulated Rabi frequency and suggest density-dependent hoppings of two species hardcore bosons in a one-dimensional optical lattice. Distinct from the previous work [Phys. Rev. Research {\bf 2}, 013275 (2020)], we study effects in the first resonance region. In the effective Hamiltonian, the intra-species hopping occurs only if the density discrepancy of the other species on these sites is zero, while the inter-species one is allowed once the relevant density discrepancy becomes nonzero. At integer-$1$ filling, the quantum phase diagram of the effective Hamiltonian is determined by the perturbation analysis together with numerical calculations. We find that in the limit of dominant $J_{1}$, the system becomes a double-degenerate dimerized state, with spontaneously breaking the translation symmetry. The interplay of $J_{0}$, $J_{1}$ and the fixed ${\bar U}=1$ leads to three BKT transition lines and a tricritical BKT point. Exact transition lines are obtained by the level spectroscopic technique. Besides, general physical properties, including the charge gap, neutral gap, superfluid density and dimerization strength, are investigated as well., Comment: 9 pages, 5 figures

Published

2022

4. Floquet-Induced Superfluidity with Periodically Modulated Interactions of Two-Species Hardcore Bosons in a One-dimensional Optical Lattice

Author

Wang, Tao, Hu, Shijie, Eggert, Sebastian, Fleischhauer, Michael, Pelster, Axel, and Zhang, Xue-Feng

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Quantum Gases

Abstract

We consider two species of hard-core bosons with density dependent hopping in a one-dimensional optical lattice, for which we propose experimental realizations using time-periodic driving. The quantum phase diagram for half-integer filling is determined by combining different advanced numerical simulations with analytic calculations. We find that a reduction of the density-dependent hopping induces a Mott-insulator to superfluid transition. For negative hopping a previously unknown state is found, where one species induces a gauge phase of the other species, which leads to a superfluid phase of gauge-paired particles. The corresponding experimental signatures are discussed., Comment: 20 pages, 9 figures, more information and final version can be found at this link: https://www.physik.uni-kl.de/eggert/papers/index.html

Published

2018

5. Quantum domain walls induce incommensurate supersolid phase on the anisotropic triangular lattice

Author

Zhang, Xue-Feng, Hu, Shijie, Pelster, Axel, and Eggert, Sebastian

Subjects

Condensed Matter - Quantum Gases, Condensed Matter - Strongly Correlated Electrons

Abstract

We investigate the extended hard-core Bose-Hubbard model on the triangular lattice as a function of spatial anisotropy with respect to both tunneling and nearest-neighbor interaction strength. At half-filling the system can be tuned from decoupled one-dimensional chains to a two-dimensional solid phase with alternating density order by adjusting the anisotropic coupling. At intermediate anisotropy, however, frustration effects dominate and an incommensurate supersolid phase emerges, which is characterized by incommensurate density order as well as an anisotropic superfluid density. We demonstrate that this intermediate phase results from the proliferation of topological defects in the form of quantum bosonic domain walls. Accordingly, the structure factor has peaks at wave vectors, which are linearly related to the number of domain walls in a finite system in agreement with extensive quantum Monte Carlo simulations. We discuss possible connections with the supersolid behavior in the high-temperature superconducting striped phase., Comment: 8 pages, 8 figures. Latest version and more information at http://www.physik.uni-kl.de/eggert/papers/index.html

Published

2016

6. Quantized squeezing and even-odd asymmetry of trapped bosons

Author

Hu, Shijie, Wen, Yuchuan, Yu, Yue, Normand, Bruce, and Wang, Xiaoqun

Subjects

Condensed Matter - Quantum Gases, Condensed Matter - Strongly Correlated Electrons

Abstract

We investigate the exact nature of the superfluid-to-Mott-insulator crossover for interacting bosons on an optical lattice in a one-dimensional, harmonic trap by high-precision density-matrix renormalization-group calculations. The results reveal an intermediate regime characterized by a cascade of microscopic steps. These arise as a consequence of individual boson "squeezing" events and display an even-odd alternation dependent on the trap symmetry. We discuss the experimental observation of this behavior, which is generic in an external trapping potential., Comment: 4.05 pages, 4 figures. Presents significantly more, and more systematic, calculations and explanations than cond-mat/0701691

Published

2009