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620 results on '"He, Xiao-Dong"'

1. Enhanced Atom-by-Atom Assembly of Defect-Free Two-Dimensional Mixed-Species Atomic Arrays

Author

Wei, Ming-Rui, Wang, Kun-Peng, Hou, Jia-Yi, Chen, Yi, Xu, Peng, Zhuang, Jun, Guo, Rui-Jun, Liu, Min, Wang, Jin, He, Xiao-Dong, and Zhan, Ming-Sheng

Subjects
Quantum Physics, Physics - Atomic Physics
Abstract

Defect-free single atom array in optical tweezers is a promising platform for scalable quantum computing, quantum simulation, and quantum metrology. Extending single-species array to mixed-species one promise to offer new possibilities. In our recent proof of principle realization of defect-free two-dimensional assembly of mixed-species $^{85}$Rb ($^{87}$Rb) atom arrays [C. Sheng et al.\href{https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.128.083202}{{\color{blue} Phys. Rev. Lett. 128, 083202(2022)}}], the filling fractions were limited by the imperfect transfer of atoms and the occurrence of logjams during the atom rearrangement. In order to scale up the size of defect-free mixed-species atom array, we scale up the tweezer array and improve the atom transfer, and upgrade the heuristic heteronuclear algorithm so as to facilitate multiple rearrangement cycles. Consequently, we successfully create defect-free atom arrays with 120 mixed-species single atoms. The corresponding filling fraction and defect-free probability are improved to be 98.6(1)\% and 14(2)\%, respectively. It is anticipated that the enhanced algorithm can be extended to other combinations of atomic species, and this mixed-species atom array is readily for studies of many-body physics, quantum error correction, and quantum metrology., Comment: 8 pages, 5 figures

Published
2025

2. A fiber array architecture for atom quantum computing

Author

Li, Xiao, Hou, Jia-Yi, Wang, Jia-Chao, Wang, Guang-Wei, He, Xiao-Dong, Zhou, Feng, Wang, Yi-Bo, Liu, Min, Wang, Jin, Xu, Peng, and Zhan, Ming-Sheng

Subjects
Quantum Physics
Abstract

Arrays of single atoms trapped in optical tweezers are increasingly recognized as a promising platform for scalable quantum computing. In both the fault-tolerant and NISQ eras, the ability to individually control qubits is essential for the efficient execution of quantum circuits. Time-division multiplexed control schemes based on atom shuttling or beam scanning have been employed to build programmable neutral atom quantum processors, but achieving high-rate, highly parallel gate operations remains a challenge. Here, we propose a fiber array architecture for atom quantum computing capable of fully independent control of individual atoms. The trapping and addressing lasers for each individual atom are emitted from the same optical waveguide, enabling robust control through common-mode suppression of beam pointing noise. Using a fiber array, we experimentally demonstrate the trapping and independent control of ten single atoms in two-dimensional optical tweezers, achieving individually addressed single-qubit gate with an average fidelity of 0.9966(3). Moreover, we perform simultaneous arbitrary single-qubit gate on four randomly selected qubits, resulting in an average fidelity of 0.9961(4). Our work paves the way for time-efficient execution of quantum algorithms on neutral atom quantum computers., Comment: 12 pages

Published
2024

3. Probing the interaction energy of two $^{85}$Rb atoms in an optical tweezer via spin-motion coupling

Author

Zhuang, Jun, Wang, Kun-Peng, Wang, Peng-Xiang, Wei, Ming-Rui, Mamat, Bahtiyar, Sheng, Cheng, Xu, Peng, Liu, Min, Wang, Jin, He, Xiao-Dong, and Zhan, Ming-Sheng

Subjects
Physics - Atomic Physics
Abstract

The inherent polarization gradients in tight optical tweezers can be used to couple the atomic spins to the two-body motion under the action of a microwave spin-flip transition, so that such a spin-motion coupling offers an important control knob on the motional states of optically trapped two colliding atoms. Here, after preparing two elastically scattering $^{85}$Rb atoms in the three-dimensional ground-state in the optical tweezer, we employed this control in order to probe the colliding energies of elastic and inelastic channels. The combination of microwave spectra and corresponding s-wave pseudopotential model allows us to infer the effect of the state-dependent trapping potentials on the elastic colliding energies, as well as to reveal how the presence of inelastic interactions affects elastic part of the relative potential. Our work shows that the spin-motion coupling in a tight optical tweezer expand the experimental toolbox for fundamental studies of ultracold collisions in the two body systems with reactive collisions, and potentially for that of more complex interactions, such as optically trapped atom-molecule and molecule-molecule interactions., Comment: 8 pages, 5 figures

Published
2024
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5. Controllable atomic collision in a tight optical dipole trap

Author

Wang, Zhu-Bo, Gu, Chen-yue, Hu, Xin-Xin, Zhang, Ya-Ting, Zhang, Ji-Zhe, Li, Gang, He, Xiao-Dong, Zou, Xu-Bo, Dong, Chun-Hua, Guo, Guang-Can, and Zou, Chang-Ling

Subjects
Physics - Optics, Physics - Atomic Physics
Abstract

Single atoms are interesting candidates for studying quantum optics and quantum information processing. Recently, trapping and manipulation of single atoms using tight optical dipole traps have generated considerable interest. Here we report an experimental investigation of the dynamics of atoms in a modified optical dipole trap with a backward propagating dipole trap beam, where a change in the two-atom collision rate by six times has been achieved. The theoretical model presented gives a prediction of high probabilities of few-atom loading rates under proper experimental conditions. This work provides an alternative approach to the control of the few-atom dynamics in a dipole trap and the study of the collective quantum optical effects of a few atoms., Comment: 5 pages, 3 figures

Published
2022
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6. Efficient two-dimensional defect-free dual-species atom arrays rearrangement algorithm with near-fewest atom moves

Author

Tao, Zhi-Jin, Yu, Li-Geng, Peng-Xu, Hou, Jia-Yi, He, Xiao-Dong, and Zhan, Ming-Sheng

Subjects
Quantum Physics
Abstract

Dual-species single-atom array in optical tweezers has several advantages over the single-species atom array as a platform for quantum computing and quantum simulation. Thus, creating the defect-free dual-species single-atom array with atom numbers over hundreds is essential. As recent experiments demonstrated, one of the main difficulties lies in designing an efficient algorithm to rearrange the stochastically loaded dual-species atoms arrays into arbitrary demanded configurations. We propose a heuristic connectivity optimization algorithm (HCOA) to provide the near-fewest number of atom moves. Our algorithm introduces the concept of using articulation points in an undirected graph to optimize connectivity as a critical consideration for arranging the atom moving paths. Tested in array size of hundreds atoms and various configurations, our algorithm shows a high success rate (> 97%), low extra atom moves ratio, good scalability, and flexibility. Furthermore, we proposed a complementary step to solve the problem of atom loss during the rearrangement.

Published
2022
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7. ZAIGA: Zhaoshan Long-baseline Atom Interferometer Gravitation Antenna

Author

Zhan, Ming-Sheng, Wang, Jin, Ni, Wei-Tou, Gao, Dong-Feng, Wang, Gang, He, Ling-Xiang, Li, Run-Bing, Zhou, Lin, Chen, Xi, Zhong, Jia-Qi, Tang, Biao, Yao, Zhan-Wei, Zhu, Lei, Xiong, Zong-Yuan, Lu, Si-Bin, Yu, Geng-Hua, Cheng, Qun-Feng, Liu, Min, Liang, Yu-Rong, Xu, Peng, He, Xiao-Dong, Ke, Min, Tan, Zheng, and Luo, Jun

Subjects
Physics - Atomic Physics
Abstract

The Zhaoshan long-baseline Atom Interferometer Gravitation Antenna (ZAIGA) is a new type of underground laser-linked interferometer facility, and is currently under construction. It is in the 200-meter-on-average underground of a mountain named Zhaoshan which is about 80 km southeast to Wuhan. ZAIGA will be equipped with long-baseline atom interferometers, high-precision atom clocks, and large-scale gyros. ZAIGA facility will take an equilateral triangle configuration with two 1-km-apart atom interferometers in each arm, a 300-meter vertical tunnel with atom fountain and atom clocks mounted, and a tracking-and-ranging 1-km-arm-length prototype with lattice optical clocks linked by locked lasers. The ZAIGA facility will be used for experimental research on gravitation and related problems including gravitational wave detection, high-precision test of the equivalence principle of micro-particles, clock based gravitational red-shift measurement, rotation measurement and gravito-magnetic effect., Comment: 20 pages, 15 figures

Published
2019
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12. High-fracture-toughness ternary layered ceramics: from the MAX to MAB phases

Author

BAI Yue-lei, YIN Hang, SONG Guang-ping, HE Xiao-dong, QI Xin-xin, GAO Jin, HAO Bing-bing, and ZHANG Jin-ze

Subjects
max phase, mab phase, layered structure, damage tolerance, model of bond stiffness, magnetic refrigeration, fe2alb2, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

The MAX phase of the ternary layered compound and the recently attracted attention of the MAB phase have become the research hotspots in the field of structural ceramics for more than 20 years because of their common characteristics of ceramics and metals. The high damage tolerance and high fracture toughness are different from the essential characteristics of traditional ceramics. The overall development of MAX phase and the latest research progress of MAB phase were briefly reviewed in this article, focusing on the analysis of the effect of multi-scale layered structure on macro-mechanical behavior and its internal mechanism. Based on the results of first-principles calculations,the bond stiffness model was established and the quantitative characterization of chemical bond strength was realized, and more importantly, it was clarified that "sufficiently" weak interlayer bonding is the root cause for the extraordinary mechanical properties of ternary layered ceramics. The magnetocaloric effect (MCE) of Fe2AlB2 near room temperature shows the good application prospects of MAB phase compounds in the functional field. After more than 20 years of continuous research, the structure and performance of MAX-phase compounds have gradually become clear. At present, application research for specific scenarios is vigorously carried out all over the world. However, the current knowledge of MAB phase compounds is still very limited. Therefore, synthesizing and characterizing the structure, mechanical properties, physical properties, and service behaviour of existing MAB phase compounds are the important tasks at this stage. First-principles numerical simulation based on density functional theory (DFT) can play an important role, just as in understanding the extraordinary properties of MAX phase compounds and discovering new compounds.

Published
2021
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24. Controllable atomic collision in a tight optical dipole trap

Author

Wang, Zhu-Bo, primary, Gu, Chenyue, additional, Hu, Xin-Xin, additional, Zhang, Ya-Ting, additional, Zhang, Ji-Zhe, additional, Li, Gang, additional, He, Xiao-Dong, additional, Zou, Xu-Bo, additional, Dong, Chun-Hua, additional, Guo, Guang-Can, additional, and Zou, Chang-Ling, additional

Published
2023
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34. Efficacy of the No. 10 lymphadenectomy with spleen preservation on patients with gastric cancer and/or esophagogastric junction adenocarcinoma who underwent total gastrectomy: a systematic review and meta-analysis

Author

Xia, Bo-Wei, primary, Wang, Chen, additional, Liu, Yong-Yong, additional, Fan, Yong, additional, He, Xiao-Dong, additional, Kang, Ying-Xin, additional, Zhou, Xin-Yuan, additional, Su, Xiao-Lu, additional, Wang, Yue-Bin, additional, Chen, Min-Xue, additional, and Kang, Bo-Xiong, additional

Published
2022
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42. Retraction: Inflammatory Molecule, PSGL-1, Deficiency Activates Macrophages to Promote Colorectal Cancer Growth through NFκB Signaling

Author

Li, Jiangchao, primary, Zhou, Zeqi, additional, Zhang, Xiaohan, additional, Zheng, Li, additional, He, Dan, additional, Ye, Yuxiang, additional, Zhang, Qian-Qian, additional, Qi, Cui-Ling, additional, He, Xiao-Dong, additional, Yu, Chen, additional, Shao, Chun-kui, additional, Qiao, Liang, additional, and Wang, Lijing, additional

Published
2022
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