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592 results on '"Zhou Xiaoxi"'

1. Crosstalk prohibition at the deep-subwavelength scale by epsilon-near-zero claddings

Author

Ji Wenjie, Luo Jie, Chu Hongchen, Zhou Xiaoxi, Meng Xiangdong, Peng Ruwen, Wang Mu, and Lai Yun

Subjects
crosstalk prohibition, epsilon-near-zero media, evanescent waves, waveguides, Physics, QC1-999
Abstract

To prevent the crosstalk between adjacent waveguides in photonic integrated circuits, the minimum thickness of the cladding layers is around half a wavelength, which imposes a fundamental limitation to further integration and miniaturization of photonic circuits. Here, we reveal that epsilon-near-zero claddings, either isotropic or anisotropic, can break the above bottleneck by prohibiting the crosstalk for the modes with magnetic field polarized in the z direction at a deep-subwavelength thickness (e.g., λ 0/30, λ 0 is the free-space wavelength), therefore bestowing ultra-compact waveguide systems. The physical origin of this remarkable effect attributes to the divergent impedance of epsilon-near-zero materials far beyond those of dielectric or epsilon-negative claddings. Through full-wave simulations and microwave experiments, we have verified the effectiveness of the ultrathin epsilon-near-zero cladding in crosstalk prohibition. Our finding reveals the significant impact of impedance difference in waveguide designs and opens a promising route toward ultra-compact photonic chips.

Published
2023
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2. Ferroptosis-associated gene SLC7A11 is upregulated in NSCLC and correlated with patient’s poor prognosis: An integrated bioinformatics analysis

Author

Huang He, Liu Juan, Wu Haiyan, Liu Fang, and Zhou Xiaoxi

Subjects
ferroptosis, slc7a11, nsclc, prognosis, Crystallography, QD901-999
Abstract

Ferroptosis is a type of programmed cell death dependent on iron and characterized by the accumulation of lipid peroxides, which was involved in the progression of malignant tumors including non-small cell lung cancer (NSCLC).

Published
2021
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3. Rare-earth doped radioluminescent hydrogel as a potential phantom material for 3D gel dosimeter

Author

Yang Tao, Wang Junhui, Tu Jiali, Zhou Xiaoxi, Sun Jiamin, Chen Jian, Wen Wanxin, and Wang Yanfei

Subjects
rare-earth nanoparticles, radioluminescence, composite gel, dose verification, gel dosimeter, Polymers and polymer manufacture, TP1080-1185
Abstract

Cancer prevention and treatment are currently the focus of most research. Dose verification is an important step for reducing the improper dose deposition during radiotherapy. To mend the traditional gel dosimeters for 3D dose verification, a novel rare-earth nanoparticle-based composite gel was prepared, which has good radioluminescence property and reusability. It is a promising phantom material for the new 3D gel dosimeter. TEM, DLS, FT-IR, TGA, and spectrofluorometer were used to determine the chemical structure, micromorphology, and optical performance. Compared to the traditional gel dosimeters, the composite gel has a good linear relationship between the light intensity excited by X-ray and the tube current. Furthermore, it may measure the dose distribution immediately in situ, which reduces errors and saves time. This work provides a new idea for the research of 3D gel dosimeters and promotes the safe and effective use of radiotherapy.

Published
2021
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4. Topological Corner Modes by Composite Wannier States in Glide-Symmetric Photonic Crystal

Author

Liu, Zhenzhen, Zhou, Xiaoxi, Wei, Guochao, Gao, Lei, hou, Bo, and Xiao, Jun-Jun

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

Second-order topological insulators can be characterized by their bulk polarization, which is believed to be intrinsically connected to the center of the Wannier function. In this study, we demonstrate the existence of second-order topological insulators that feature a pair of partially degenerate photonic bands. These arise from the nonsymmorphic glide symmetry in an all-dielectric photonic crystal. The center of the maximally localized Wannier function (MLWF) is consistently located at the origin but is not equivalent with respect to the sum of constituent polarizations. As a result, topological corner modes can be identified by the distinctly hybridized MLWFs that truncate at the sample boundary. Through full-wave numerical simulations paired with microwave experiments, the second-order topology is clearly confirmed and characterized. These topological corner states exhibit notably unique modal symmetries, which are made possible by the inversion of the Wannier bands. Our results provide an alternative approach to explore higher-order topological physics with significant potential for applications in integrated and quantum photonics.

Published
2024
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9. Experimental observation of anomalous optical transmission in interlaced metallic wire meshes

Author

Dong, Weijie, Zhou, Xiaoxi, Pan, Xinyang, Li, Haitao, Wang, Gang, Xu, Yadong, and Hou, Bo

Subjects
Physics - Optics
Abstract

In conventional plasmonic media and plasmonic metamaterials, such as metallic wire mesh, longitudinal mode of electromagnetic wave manifests itself in frequency overlapping transverse modes, which impedes clear observation of longitudinal-mode-specific physical effects. Through interlacing two sets of wire meshes, an ideal band for longitudinal mode is achieved ranging from zero frequency to plasma frequency where transverse modes are completely forbidden. The unique spectral separation of modes facilitates the observation of pure longitudinal mode and related plasmonic effects in bulk medium. We report the first experiment of anomalous optical transmission, induced solely by electromagnetic longitudinal mode resonance, below plasma frequency in the wire mesh medium.

Published
2023
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15. Observation of Higher-Order Topological States in Acoustic Twisted Moir\'e Superlattice

Author

Wu, Shi-Qiao, Lin, Zhi-Kang, Jiang, Bin, Zhou, Xiaoxi, Hou, Bo, and Jiang, Jian-Hua

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

Twisted moir\'e superlattices (TMSs) are fascinating materials with exotic physical properties. Despite tremendous studies on electronic, photonic and phononic TMSs, it has never been witnessed that TMSs can exhibit higher-order band topology. Here, we report on the experimental observation of higher-order topological states in acoustic TMSs. By introducing moir\'e twisting in bilayer honeycomb lattices of coupled acoustic resonators, we find a regime with designed interlayer couplings where a sizable band gap with higher-order topology emerges. This higher-order topological phase host unique topological edge and corner states, which can be understood via the Wannier centers of the acoustic Bloch bands below the band gap. We confirm experimentally the higher-order band topology by characterizing the edge and corner states using acoustic pump-probe measurements. With complementary theory and experiments, our study opens a pathway toward band topology in TMSs., Comment: 4 figures

Published
2021

16. Observation of non-Abelian topological semimetals and their phase transitions

Author

Jiang, Bin, Bouhon, Adrien, Lin, Zhi-Kang, Zhou, Xiaoxi, Hou, Bo, Li, Feng, Slager, Robert-Jan, and Jiang, Jian-Hua

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter, Condensed Matter - Soft Condensed Matter
Abstract

Topological phases of matter lie at the heart of physics, connecting elegant mathematical principles to real materials that are believed to shape future electronic and quantum computing technologies. To date, studies in this discipline have almost exclusively been restricted to single-gap band topology because of the Fermi-Dirac filling effect. Here, we theoretically analyze and experimentally confirm a novel class of multi-gap topological phases, which we will refer to as non-Abelian topological semimetals, on kagome geometries. These unprecedented forms of matter depend on the notion of Euler class and frame charges which arise due to non-Abelian charge conversion processes when band nodes of different gaps are braided along each other in momentum space. We identify such exotic phenomena in acoustic metamaterials and uncover a rich topological phase diagram induced by the creation, braiding and recombination of band nodes. Using pump-probe measurements, we verify the non-Abelian charge conversion processes where topological charges of nodes are transferred from one gap to another. Moreover, in such processes, we discover symmetry-enforced intermediate phases featuring triply-degenerate band nodes with unique dispersions that are directly linked to the multi-gap topological invariants. Furthermore, we confirm that edge states can faithfully characterize the multi-gap topological phase diagram. Our study unveils a new regime of topological phases where multi-gap topology and non-Abelian charges of band nodes play a crucial role in understanding semimetals with inter-connected multiple bands., Comment: 22 + 19 pages, 5+11 figures. With regard to references, please note that this concerns a version submitted to the journal in February 2021

Published
2021
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19. Twisted quadrupole topological photonic crystals

Author

Zhou, Xiaoxi, Lin, Zhi-Kang, Lu, Weixin, Lai, Yun, Hou, Bo, and Jiang, Jian-Hua

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

Topological manipulation of waves is at the heart of the cutting-edge metamaterial researches. Quadrupole topological insulators were recently discovered in two-dimensional (2D) flux-threading lattices which exhibit higher-order topological wave trapping at both the edges and corners. Photonic crystals (PhCs), lying at the boundary between continuous media and discrete lattices, however, are incompatible with the present quadrupole topological theory. Here, we unveil quadrupole topological PhCs triggered by a twisting degree-of-freedom. Using a topologically trivial PhC as the motherboard, we show that twisting induces quadrupole topological PhCs without flux-threading. The twisting-induced crystalline symmetry enriches the Wannier polarizations and lead to the anomalous quadrupole topology. Versatile edge and corner phenomena are observed by controlling the twisting angles in a lateral heterostructure of 2D PhCs. Our study paves the way toward topological twist-photonics as well as the quadrupole topology in the quasi-continuum regime for phonons and polaritons.

Published
2019
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34. Hepatic progenitor cell-originated ductular reaction facilitates liver fibrosis through activation of hedgehog signaling

Author

Hu, Yonghong, primary, Bao, Xinyu, additional, Zhang, Zheng, additional, Chen, Long, additional, Liang, Yue, additional, Qu, Yan, additional, Zhou, Qun, additional, Zhou, Xiaoxi, additional, Fang, Jing, additional, Xiao, Zhun, additional, Fu, Yadong, additional, Yang, Hailin, additional, Liu, Wei, additional, Lv, Ying, additional, Cao, Hongyan, additional, Chen, Gaofeng, additional, Ping, Jian, additional, Zhang, Hua, additional, Mu, Yongping, additional, Liu, Chenghai, additional, Lin, Chao-Po, additional, Wu, Jian, additional, Liu, Ping, additional, and Chen, Jiamei, additional

Published
2024
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35. Case report: Differential diagnosis of highly amplified anti-CD5 CAR T cells and relapsed lymphoma cells in a patient with refractory ALK positive anaplastic large cell lymphoma

Author

Mu, Wei, primary, Zhang, Meilan, additional, Hu, Guang, additional, Han, Yunfeng, additional, Mao, Xia, additional, Chen, Caixia, additional, Shen, Kefeng, additional, Dai, Zhenyu, additional, Zhu, Xiaojian, additional, Zhou, Xiaoxi, additional, Huang, Liang, additional, Ao, Qilin, additional, and Xiao, Min, additional

Published
2023
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45. Elevated serum levels of S100A8/A9 and HMGB1 at hospital admission are correlated with inferior clinical outcomes in COVID-19 patients

Author

Chen, Liting, Long, Xiaolu, Xu, Qian, Tan, Jiaqi, Wang, Gaoxiang, Cao, Yang, Wei, Jia, Luo, Hui, Zhu, Hui, Huang, Liang, Meng, Fankai, Huang, Lifang, Wang, Na, Zhou, Xiaoxi, Zhao, Lei, Chen, Xing, Mao, Zekai, Chen, Caixia, Li, Zhen, Sun, Ziyong, Zhao, Jianping, Wang, Daowen, Huang, Gang, Wang, Wei, and Zhou, Jianfeng

Published
2020
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48. P1167: TREATMENT OF RELAPSED/REFRACTORY HGBCL WITH MYC REARRANGEMENT: A MULTICENTER, OPEN-LABEL, PHASE 2 STUDY OF PC-002(SEPB),A FIRST-IN-CLASS INHIBITOR OF DEUBIQUITINASES TARGETING MYC DEGRADATION

Author

Yoon, Sung-Soo, primary, LI, Zhiming, additional, Zhou, Keshu, additional, Zhou, Xiaoxi, additional, Guo, Ye, additional, Zhang, Huilai, additional, Eom, Ki-Seong, additional, Jin Kim, Seok, additional, Yong Oh, Sung, additional, Lim, Sungnam, additional, Youssoufian, Hagop, additional, Jiang, Vernon C, additional, Huang, Zanchun, additional, Kilfoil, Georgina, additional, Wang, Xin, additional, Cao, Zhixiang, additional, LI, Xiang, additional, Wu, Alexander, additional, Chen, Yiyou, additional, and Song, Yuqin, additional

Published
2023
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