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45 results on '"Zou, Changling"'

1. Experimental simulation of open quantum system dynamics via Trotterization

Author

Han, Jiaxiu, Cai, Weizhou, Hu, Ling, Mu, Xianghao, Ma, Yuwei, Xu, Yuan, Wang, Weiting, Wang, Haiyan, Song, Yipu, Zou, Changling, and Sun, Luyan

Subjects
Quantum Physics
Abstract

Digital quantum simulators provide a diversified tool for solving the evolution of quantum systems with complicated Hamiltonians and hold great potential for a wide range of applications. Although much attention is paid to the unitary evolution of closed quantum systems, dissipation and noise are vital in understanding the dynamics of practical quantum systems. In this work, we experimentally demonstrate a digital simulation of an open quantum system in a controllable Markovian environment with the assistance of a single ancillary qubit. By Trotterizing the quantum Liouvillians, the continuous evolution of an open quantum system is effectively realized, and its application in error mitigation is demonstrated by adjusting the simulated noise intensities. High-order Trotter for open quantum dynamics is also experimentally investigated and shows higher accuracy. Our results represent a significant step towards hardware-efficient simulation of open quantum systems and error mitigation in quantum algorithms in noisy intermediate-scale quantum systems., Comment: main text 6 pages, 4 figures; supplementary material 9 pages, 8 figures, 3 tables

Published
2021
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2. High-efficiency arbitrary quantum operation on a high-dimensional quantum system

Author

Cai, Weizhou, Han, Jiaxiu, Hu, Ling, Ma, Yuwei, Mu, Xianghao, Wang, Weiting, Xu, Yuan, Hua, Ziyue, Wang, Haiyan, Song, Yipu, Zhang, Jingning, Zou, Changling, and Sun, Luyan

Subjects
Quantum Physics
Abstract

The ability to manipulate quantum systems lies at the heart of the development of quantum technology. The ultimate goal of quantum control is to realize arbitrary quantum operations (AQuOs) for all possible open quantum system dynamics. However, the demanding extra physical resources impose great obstacles. Here, we experimentally demonstrate a universal approach of AQuO on a photonic qudit with minimum physical resource of a two-level ancilla and a $\log_{2}d$-scale circuit depth for a $d$-dimensional system. The AQuO is then applied in quantum trajectory simulation for quantum subspace stabilization and quantum Zeno dynamics, as well as incoherent manipulation and generalized measurements of the qudit. Therefore, the demonstrated AQuO for complete quantum control would play an indispensable role in quantum information science., Comment: main text 7 pages, 3 figures; supplementary material 13 pages, 8 figures

Published
2020
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3. Photonic dissipation control for Kerr soliton generation in strongly Raman-active media

Author

Gong, Zheng, Li, Ming, Liu, Xianwen, Xu, Yuntao, Lu, Juanjuan, Bruch, Alexander, Surya, Joshua B., Zou, Changling, and Tang, Hong X.

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Microcavity solitons enable miniaturized coherent frequency comb sources. However, the formation of microcavity solitons can be disrupted by stimulated Raman scattering (SRS), particularly in the emerging crystalline microcomb materials with high Raman gain. Here, we propose and implement dissipation control---tailoring the energy dissipation of selected cavity modes---to purposely raise/lower the threshold of Raman lasing in a strongly Raman-active lithium niobate microring resonator, and realize on-demand soliton mode-locking or Raman lasing. Numerical simulations are carried out to confirm our analyses and agree well with experiment results. Our work demonstrates an effective approach to address strong SRS for microcavity soliton generation.

Published
2020
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4. Heralded Generation and Detection of Entangled Microwave--Optical Photon Pairs

Author

Zhong, Changchun, Wang, Zhixin, Zou, Changling, Zhang, Mengzhen, Han, Xu, Fu, Wei, Xu, Mingrui, Shankar, Shyam, Devoret, Michel H., Tang, Hong X., and Jiang, Liang

Subjects
Quantum Physics
Abstract

Quantum state transfer between microwave and optical frequencies is essential for connecting superconducting quantum circuits to coherent optical systems and extending microwave quantum networks over long distances. To build such a hybrid `quantum Internet,' an important experiment in the quantum regime is to entangle microwave and optical modes. Based on the model of a generic cavity electro-optomechanical system, we present a heralded scheme to generate entangled microwave--optical photon pairs, which can bypass the efficiency threshold for quantum channel capacity in direct transfer protocols. The parameter regime for entanglement verification is identified that is compatible with realistic experimental settings. Our scheme is feasible given the latest experimental progress on electro-optomechanics, and can be potentially generalized to various physical systems.

Published
2019
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5. Demonstration of quantum error correction and universal gate set on a binomial bosonic logical qubit

Author

Hu, Ling, Ma, Yuwei, Cai, Weizhou, Mu, Xianghao, Xu, Yuan, Wang, Weiting, Wu, Yukai, Wang, Haiyan, Song, Yipu, Zou, Changling, Girvin, S. M., Duan, L-M., and Sun, Luyan

Subjects
Quantum Physics
Abstract

Logical qubit encoding and quantum error correction (QEC) have been experimentally demonstrated in various physical systems with multiple physical qubits, however, logical operations are challenging due to the necessary nonlocal operations. Alternatively, logical qubits with bosonic-mode-encoding are of particular interest because their QEC protection is hardware efficient, but gate operations on QEC protected logical qubits remain elusive. Here, we experimentally demonstrate full control on a single logical qubit with a binomial bosonic code, including encoding, decoding, repetitive QEC, and high-fidelity (97.0% process fidelity on average) universal quantum gate set on the logical qubit. The protected logical qubit has shown 2.8 times longer lifetime than the uncorrected one. A Ramsey experiment on a protected logical qubit is demonstrated for the first time with two times longer coherence than the unprotected one. Our experiment represents an important step towards fault-tolerant quantum computation based on bosonic encoding., Comment: 20 pages 18 figures

Published
2018
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6. Sub-diffraction optical manipulation of the chargestate of nitrogen vacancy center in diamond

Author

Chen, Xiangdong, Zou, Changling, Gong, Zhaojun, Dong, Chunhua, Guo, Guangcan, and Sun, Fangwen

Subjects
Quantum Physics, Physics - Optics
Abstract

As a potential candidate for quantum computation and metrology, the nitrogen vacancy (NV)center in diamond presented both challenges and opportunities resulted from charge state conversion. By utilizing different lasers for the photon-induced charge state conversion, we achieved the sub-diffraction charge state manipulation. The charge state depletion (CSD) microscopy resolution was improved to 4.1 nm by optimizing the laser pulse sequences. Subsequently, the electron spin state dynamics of adjacent NV centers were selectively detected via the CSD. The experimental results demonstrated that the CSD can improve the spatial resolution of the measurement of NV centers for nanoscale sensing and quantum information., Comment: 21 pages including 5 figs and Supplementary material; Accepted by Light: Science & Applications

Published
2014

7. Interference of surface plasmon polaritons from a 'point' source

Author

Ren, Xifeng, Liu, Aiping, Zou, Changling, Wang, Lulu, Cai, Yongjing, Sun, Fangwen, Guo, Guangcan, and Guo, Guoping

Subjects
Physics - Optics
Abstract

The interference patterns of the surface plasmon polaritons(SPPs) on the metal surface from a "point" source are observed. These interference patterns come from the forward SPPs and the reflected one from the obstacles, such as straightedge,corner, and ring groove structure. Innovation to the previous works, a "point" SPPs source with diameter of 100 nm is generated at the freely chosen positions on Au/air interface using near field excitation method. Such a "point" source provides good enough coherence to generate obvious interference phenomenon. The constructive and destructive interference patterns of the SPPs agree well with the numerical caculation. This "point" SPPs source may be useful in the investigation of plasmonics for its high coherence, deterministic position and minimum requirement for the initial light source., Comment: 11 pages,4 figures

Published
2010
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9. Nanoprobes in biomedical detection

Author

Zhao, Yawei, Zou, Changling, Zhao, Hongkang, and Zhao, Lina

Abstract

Environmental problems caused by the development of nanotechnology have threatened human health. Investigating the biomedical effects of nanomaterials can help to solve these environmental safety issues. In studies on the biomedical effects of nanomaterials, several types of novel nanoscale probes that allow reliable, sensitive, accurate and rapid biomedical detection have emerged. We summarize recent developments in three categories of these nanoprobes, including noble metal nanocluster probes, carbon-based nanostructured probes, and unnatural amino acid-based probes. Besides reviewing the utility of different nanoprobes in cell imaging and protein detection, we also discuss the molecular mechanism of nanoprobe detection. Perspectives of novel nanoprobe design based on molecular details of biomedical detection are presented.

Published
2024
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14. 集成光子-原子芯片的研究进展(特邀)

Author

LIU Aiping, 刘爱萍, primary, CHEN Guangjie, 陈广杰, additional, CHEN Liang, 陈梁, additional, XU Xinbiao, 徐新标, additional, ZHANG Yanlei, 张延磊, additional, WANG Qin, 王琴, additional, and ZOU Changling, 邹长铃, additional

Published
2022
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15. 基于回音壁微腔的可见光波段光频梳研究进展(特邀)

Author

卢启景 Lu Qijing, 廖令琴 Liao Lingqin, 舒方杰 Shu Fangjie, 李明 Li Ming, 谢树森 Xie Shusen, and 邹长铃 Zou Changling

Subjects
Space and Planetary Science, Aerospace Engineering, Electrical and Electronic Engineering, Atomic and Molecular Physics, and Optics
Published
2022

16. 集成光子-原子芯片的研究进展(特邀)

Author

刘爱萍 LIU Aiping, 陈广杰 CHEN Guangjie, 陈梁 CHEN Liang, 徐新标 XU Xinbiao, 张延磊 ZHANG Yanlei, 王琴 WANG Qin, and 邹长铃 ZOU Changling

Subjects
Atomic and Molecular Physics, and Optics
Published
2022

36. 回音壁模式光学微腔: 基础与应用

Author

DONG, ChunHua, primary, WU, XiaoWei, additional, ZOU, ChangLing, additional, GUO, GuangCan, additional, CUI, JinMin, additional, SUN, FangWen, additional, HAN, ZhengFu, additional, and YANG, Yong, additional

Published
2012
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39. Photoluminescence from site-selected coupling between quantum dots and microtoroid cavities

Author

Wu, Xiaowei, Zou, Changling, Wei, Wei, Sun, Fangwen, Guo, Guangcan, and Han, Zhengfu

Abstract

By using CdSe/ZnS quantum dots (QDs), we study the effect of cavity quantum electrodynamics on the coupling of the microtoroid cavity. When with whispering gallery (WG) modes, the microtoroid cavity demonstrates high quality factor and small mode volume at visible wavelengths. Accordingly, fiber tapers allow QDs to adhere into the cavity and further permit the control of site-selected coupling. From the luminescence spectra, QDs are modulated effectively by cavity modes. Variable modulations are observed by changing QD coupling conditions. Therefore, based on experimental and theoretical research, strong and tunable Purcell enhancement can be realized by this system.The authors thank Jinming Cui and Chunhua Dong for their helpful discussion. This work was supported by the National Fundamental Research Program of China (No. 2006CB921900), the National Natural Science Foundation of China (Nos. 60537020 and 60621064), and the Knowledge Innovation Project of the Chinese Academy of Sciences.

Published
2010

40. Ringing phenomenon in silica microspheres

Author

Dong, Chunhua, Zou, Changling, Cui, Jinming, Yang, Yong, Han, Zhengfu, and Guo, Guangcan

Abstract

Whispering gallery modes in silica microspheres are excited by a tunable continuous-wave laser through the fiber taper. Ringing phenomenon can be observed with high frequency sweeping speed. The thermal nonlinearity in the microsphere can enhance this phenomenon. Our measurement results agree very well with the theoretical predictions by the dynamic equation.

Published
2009

43. Effect of unbalanced and common losses in quantum photonic integrated circuits

Author

Li, Ming, Zou, Changling, Guo, Guangcan, and Ren, Xifeng

Abstract

Loss is inevitable for the optical system due to the absorption of materials, scattering caused by the defects, and surface roughness. In quantum optical circuits, the loss can not only reduce the intensity of the signal, but also affect the performance of quantum operations. In this work, we divide losses into unbalanced linear losses and shared common losses, and provide a detailed analysis on how loss affects the integrated linear optical quantum gates. It is found that the orthogonality of eigenmodes and the unitary phase relation of the coupled waveguide modes are destroyed by the loss. As a result, the fidelity of single- and two-qubit operations decreases significantly as the shared loss becomes comparable to the coupling strength. Our results are important for the investigation of large-scale photonic integrated quantum information processes.

Published
2017

45. Poling-assisted hydrofluoric acid wet etching of thin-film lithium niobate.

Author

Yu S, Kang H, Shen X, Xue Y, Wan W, Zou C, Chen B, and Lu J

Abstract

Thin-film lithium niobate (TFLN) has been extensively investigated for a wide range of applications due to continuous advancements in its fabrication methods. The recent emergence of high-fidelity ferroelectric domain poling of TFLN provides an opportunity for achieving a precise pattern control of ferroelectric domains and a subsequent pattern transfer to the TFLN layer using hydrofluoric acid (HF). In this work, we present, to the best of our knowledge, the first demonstration of z-cut TFLN microdisks using a poling-assisted HF wet etching approach. By applying intense electric fields, we are able to induce a domain inversion in the TFLN with a designed microdisk pattern. A HF solution is subsequently utilized to transfer the inverted domain pattern to the TFLN layer with the selective etching of -z LN, ultimately revealing the microdisks.

Published
2024
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