Simulation of Higher-Order Topological Phases and Related Topological Phase Transitions in a Superconducting Qubit
Jingjing Niu,Tongxing Yan,Yuxuan Zhou,Ziyu Tao,Xiaole Li,Weiyang Liu,Libo Zhang,Song Liu,Zhongbo Yan,Yuanzhen Chen,Dapeng Yu +10 more
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TLDR
In this paper, a simulation of a two-dimensional second-order topological phase in a superconducting qubit was carried out, where the pseudo-spin texture was measured in momentum space of the bulk for the first time.Citations
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First- and Second-Order Topological Superconductivity and Temperature-Driven Topological Phase Transitions in the Extended Hubbard Model with Spin-Orbit Coupling.
TL;DR: This Letter investigates the superconducting pairing instability of the two-dimensional extended Hubbard model with both Rashba and Dresselhaus spin-orbit coupling within the mean-field level at both zero and finite temperature and suggests new possibilities in interacting spin- orbit coupled systems by unifying both first- and higher-order topological superconductors in a simple but realistic microscopic model.
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Direct dynamical characterization of higher-order topological phases with nested band inversion surfaces
TL;DR: In this article, the authors propose a dynamics-based characterization of one large class of Z-type HOTPs without specifically relying on any crystalline symmetry considerations, and connect quantum quench dynamics with nested configurations of the so-called band inversion surfaces (BISs) of momentum-space Hamiltonians as a sum of operators from the Clifford algebra.
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Low-temperature environments for quantum computation and quantum simulation
TL;DR: This review article summarizes the requirement of low temperature conditions in existing experimental approaches to quantum computation and quantum simulation.
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Topological holographic quench dynamics in a synthetic frequency dimension.
TL;DR: In this paper, a pseudospin model is constructed with ring resonators in a synthetic lattice formed by frequencies of light, and the quench dynamics is induced by initializing a trivial state, which evolves under a topological Hamiltonian.
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Dynamically characterizing topological phases by high-order topological charges
TL;DR: In this article, the authors proposed a new theory to characterize equilibrium topological phase with non-equilibrium quantum dynamics by introducing the concept of high-order topological charges, with novel phenomena being predicted.
References
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Observation of a Dynamical Quantum Phase Transition by a Superconducting Qubit Simulation
Xueyi Guo,Chao Yang,Yu Zeng,Yi Peng,Hekang Li,Hui Deng,Yirong Jin,Yirong Jin,Shu Chen,Dongning Zheng,Heng Fan +10 more
TL;DR: In this paper, a quantum simulation of the quench dynamics of a many-body system was performed using a single superconducting qubit, by varying the control parameter over the range of momenta as the qubit's spin-1/2 state evolves on the Bloch sphere.
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Inversion-protected Higher-order Topological Superconductivity in Monolayer WTe 2
TL;DR: Surprisingly, it is found that the spin-triplet phases in the authors' phase diagram all host Majorana modes localized on two opposite corners, suggesting superconducting monolayer WTe_{2} is a playground for higher-order topological superconductivity and possibly the first material realization for inversion-protected Majorana corner modes without utilizing proximity effect.
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Robust zero-energy modes in an electronic higher-order topological insulator: the dimerized Kagome lattice
S. N. Kempkes,M. R. Slot,J. J. van den Broeke,Pierre Capiod,Wladimir A. Benalcazar,Daniel Vanmaekelbergh,Dario Bercioux,Ingmar Swart,C. Morais Smith +8 more
TL;DR: In this article, a higher-order electronic topological insulator (HOTI) was realized by manipulating carbon-monoxide (CO) molecules on a Cu(111) surface using a scanning tunneling microscope (STM).
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Lattice-Symmetry-Assisted Second-Order Topological Superconductors and Majorana Patterns
TL;DR: A realization of the lattice-symmetry-assisted second-order topological superconductors with corner Majorana zero modes (MZM) based on two-dimensional topological insulators (2DTI) and finds different types of gap opening for the edge states along the armchair and zigzag edges in a broad range of parameters.
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Second-Order Topological Superconductors with Mixed Pairing
TL;DR: In this article, a two-dimensional semiconductor with Rashba spin-orbit coupling was shown to be driven into the second-order topological superconducting phase when a mixed-pairing state is introduced.