Search

Your search keyword '"Zhu, Han-Jie"' showing total 22 results
Start Over Author "Zhu, Han-Jie"
22 results on '"Zhu, Han-Jie"'

1. Anomalous non-Hermitian skin effect: the topological inequivalence of skin modes versus point gap

Author

Guo, Gang-Feng, Bao, Xi-Xi, Zhu, Han-Jie, Zhao, Xiao-Ming, Zhuang, Lin, Tan, Lei, and Liu, Wu-Ming

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics
Abstract

Non-Hermitian skin effect, the localization of an extensive number of eigenstates at the ends of the system, has greatly expanded the frontier of physical laws. It has long been believed that the present of skin modes is equivalent to the topologically nontrivial point gap of complex eigenvalues under periodic boundary conditions, and vice versa. However, we find that this concomitance can be broken, i.e., the skin modes can be present or absent whereas the point gap is topologically trivial or nontrivial, respectively, named anomalous non-Hermitian skin effect. This anomalous phenomenon arises when the unidirectional hopping amplitudes leading to the decoupling-like behaviors among subsystems are emergence. The emergence of the anomalous non-Hermitian skin effect is accompanied by the mutations of the open boundary energy spectrum, whose structure exhibits the multifold exceptional point and can not be recovered by continuum bands. Moreover, an experimental setup using circuits is proposed to simulate this novel quantum effect. Our results reveal the topologically inequivalent between skin modes and point gap. This new effect not only can give a deeper understanding of non-Bloch theory and the critical phenomenon in non-Hermitian systems, but may also inspire new applications such as in the sensors field.

Published
2023

2. Emergent Quasiperiodicity from Polariton-phonon Hybrid Excitations in Waveguide Quantum Optomechanics

Author

Zhu, Han-Jie, Zhao, Xiao-Ming, Zhao, Jin-Kui, Zhuang, Lin, Zhang, Guo-Feng, and Liu, Wu-Ming

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We investigate polariton-phonon hybrid excitations, which describe the collective excitations of emitter-photon polaritons and vibrational phonons, in a periodic array of vibrating two-level emitters interacting with waveguide photons. We demonstrate the emergence of an interaction-induced quasiperiodic structure caused by the interplay between phonon scatterings and waveguide-mediated long-range couplings. This quasiperiodicity fundamentally changes the excitation characteristics in the subradiant regime, which feature an appearance of topological edge states and a transition between ergodic and multifractal excitations. A possible realization consisting of an array of laser-cooled atoms trapped near an optical nanofiber is also proposed. Our results demonstrate the possibility of utilizing vibrations as a novel degree of freedom in the exploration of many-body physics with waveguide quantum electrodynamics systems.

Published
2022

4. Quantum speedup dynamics process in Schwarzschild space-time

Author

Xu, Kai, Zhu, Han-Jie, Zhang, Guo-Feng, Wang, Jie-Ci, and Liu, Wu-Ming

Subjects
Quantum Physics
Abstract

Quantum speed limit time (QSLT) can be used to characterize the intrinsic minimal time interval for a quantum system evolving from an initial state to a target state. We investigate the QSLT of the open system in Schwarzschild space-time. We show that, in some typical noisy channels,the Hawking effect can be beneficial to the evolution of the system. For an initial entangled state, the evolution speed of the system can be enhanced in the depolarizing, bit flip, and bit-phase flip channels as the Hawking temperature increases, which are in sharp contrast to the phase flip channel. Moreover, the optimal initial entanglement exists in other noise channels except the phase flip channel, which minimizes the QSLT of the system and thus leads to the maximum evolution speed of the system., Comment: 7 pages, 6 figures

Published
2021

5. Finite-system Multicriticality at the Superradiant Quantum Phase Transition

Author

Zhu, Han-Jie, Xu, Kai, Zhang, Guo-Feng, and Liu, Wu-Ming

Subjects
Quantum Physics
Abstract

We demonstrate the existence of finite-system multicriticality in a qubit-boson model where biased qubits collectively coupled to a single-mode bosonic field. The interplay between biases and boson-qubit coupling produces a rich phase diagram showing multiple superradiant phases and phase boundaries of different orders. In particular, multiple phases can become indistinguishable in appropriate bias configurations, which is the signature of multicriticality. A series of universality classes characterizing these multicritical points are identified. Moreover, we present a trapped-ion realization with the potential to explore the multicritical phenomena experimentally using a small number of ions. The results open a novel way to probe multicritical universality classes in experiments., Comment: 6 pages, 3 figures

Published
2020
Full Text
View/download PDF

7. Universal Dissipationless Dynamics in Gaussian Continuous-variable Open Systems

Author

Zhu, Han-Jie, Zhang, Guo-Feng, Zhuang, Lin, and Liu, Wu-Ming

Subjects
Quantum Physics
Abstract

We investigate the universal dissipationless dynamics of Gaussian continuous-variable systems in the presence of a band-gapped bosonic environment. Our results show that environmental band gaps can induce localized modes, which give rise to the dissipationless dynamics where the system behaves as free oscillators instead of experiencing a full decay in the long time limit. We present a complete characterization of localized modes, and show the existence of the critical system-environment coupling. Beyond the critical values, localized modes can be produced and the system dynamics become dissipationless. This novel dynamics can be utilized to overcome the environmental noises and protect the quantum resources in the continuous-variable quantum information., Comment: 6 pages, 2 figures;any comments are welcome!

Published
2018
Full Text
View/download PDF

9. The effects of different quantum feedback operator types on the parameter precision of detection efficiency in optimal quantum estimation

Author

Ma, Shao-Qiang, Zhu, Han-Jie, and Zhang, Guofeng

Subjects
Quantum Physics
Abstract

The effects of different quantum feedback types on the estimation precision of the detection efficiency are studied. It is found that the precision can be more effective enhanced by a certain feedback type through comparing these feedbacks and the precision has a positive relation with detection efficiency for the optimal feedback when the system reach the state of dynamic balance. In addition, the bigger the proportion of is the higher the precision is and we will not obtain any information about the parameter to be estimated if is chosen as initial state for the feedback type {\lambda}{\sigma}_z., Comment: 13 pages, 8 figures,in press

Published
2017
Full Text
View/download PDF

16. Enhanced Charging in Common Environments Compared to Independent Environments for Two‐Level Systems.

Author

Xu, Kai, Chen, Jin‐Jun, Li, Hong‐Guo, Zhu, Hao, Zhu, Han‐Jie, and Liu, Wu‐Ming

Subjects
BATTERY chargers, BATTERY storage plants
Abstract

The charging process of a quantum battery (i.e., a two‐level system) is studied in two scenarios, that is, a quantum battery and a charger are coupled to the common reservoir environments or coupled to their respective independent environments. In the common reservoir scenario, it is shown that the optimal charging process can be realized by increasing the number of environments and setting the same coupling strength between battery‐reservoirs and charger‐reservoirs. In the independent reservoir scenario, however, it is shown that decreasing either the number of reservoir environments or the coupling strength would enhance the charging performance. These results demonstrate that the charging performance of quantum batteries can be significantly improved by constructing common environments. This may be of help to the realization of the quantum battery with optimal charging performance in multiple environments. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

22. Inhibiting the self-discharging process of quantum batteries in non-Markovian noises.

Author

Xu K, Li HG, Zhu HJ, and Liu WM

Abstract

One of the main challenges in developing high-performance quantum batteries is the self-discharging process, where energy is dissipated from a quantum battery into the environment. In this work, we investigate the influence of non-Markovian noises on the performance of a quantum battery. Our results demonstrate that adding auxiliary qubits to a quantum battery system can effectively suppress the self-discharging process, leading to an improvement in both the steady-state energy and extractable work. We reveal that the physical mechanism inhibiting the self-discharging process is the formation of system-environment bound states, rather than an increase in non-Markovianity. Our results could be of both theoretical and experimental interest in exploring the ability of quantum batteries to maintain long stored energy in the environment.

Published
2024
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results