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1. The Cusp Limit of Correlators and A New Graphical Bootstrap for Correlators/Amplitudes to Eleven Loops

Author

He, Song, Shi, Canxin, Tang, Yichao, and Zhang, Yao-Qi

Subjects
High Energy Physics - Theory
Abstract

We consider the universal behavior of half-BPS correlators in $\mathcal N=4$ super-Yang-Mills in the cusp limit where two consecutive separations $x_{12}^2,x_{23}^2$ become lightlike. Through the Lagrangian insertion procedure, the Sudakov double-logarithmic divergence of the $n$-point correlator is related to the $(n+1)$-point correlator where the inserted Lagrangian ``pinches'' to the soft-collinear region of the cusp. We formulate this constraint as a new {\it graphical rule} for the $f$-graphs of the four-point correlator, which turns out to be the most constraining rule known so far. By exploiting this single graphical rule, we bootstrap the planar integrand of the four-point correlator up to ten loops ($n=14$) and fix all 22024902 but one coefficient at eleven loops ($n=15$); the remaining coefficient is then fixed using the triangle rule. We comment on the breakdown of a ``Catalan conjecture" for the coefficients of the family of $f$-graphs known as ``anti-prisms" where the coefficient of the twelve-loop ($n=16$) anti-prism is found to be $-38$ (as opposed to $-42$ if the conjecture should hold) by a local analysis of the bootstrap equations. We also comment on the implication of our graphical rule for the non-planar contributions., Comment: 26 pages, 5 figures

Published
2024

2. Electrical detection in two-terminal perpendicularly magnetized devices via geometric anomalous Nernst effect

Author

Liu, Jiuming, Rong, Bin, Bai, Hua, Liu, Xinqi, Liu, Yanghui, Zhang, Yifan, Xiao, Yujie, Liang, Yuzhen, Yao, Qi, Liao, Liyang, Yang, Yumeng, Song, Cheng, and Kou, Xufeng

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

The non-uniform current distribution arisen from either current crowding effect or hot spot effect provides a method to tailor the interaction between thermal gradient and electron transport in magnetically ordered systems. Here we apply the device structural engineering to realize an in-plane inhomogeneous temperature distribution within the conduction channel, and the resulting geometric anomalous Nernst effect (GANE) gives rise to a non-zero 2nd -harmonic resistance whose polarity corresponds to the out-of-plane magnetization of Co/Pt multi-layer thin film, and its amplitude is linearly proportional to the applied current. By optimizing the aspect ratio of convex-shaped device, the effective temperature gradient can reach up to 0.3 K/$\mu$m along the y-direction, leading to a GANE signal of 28.3 $\mu$V. Moreover, we demonstrate electrical write and read operations in the perpendicularly-magnetized Co/Pt-based spin-orbit torque device with a simple two-terminal structure. Our results unveil a new pathway to utilize thermoelectric effects for constructing high-density magnetic memories

Published
2024

3. Tunable interfacial Rashba spin-orbit coupling in asymmetric Al$_x$In$_{1-x}$Sb/InSb/CdTe quantum well heterostructures

Author

Ruan, Hanzhi, Zhi, Zhenghang, Wu, Yuyang, Liu, Jiuming, Huang, Puyang, Yao, Shan, Liu, Xinqi, Tang, Chenjia, Yao, Qi, Sun, Lu, Zhang, Yifan, Xiao, Yujie, Che, Renchao, and Kou, Xufeng

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

The manipulation of Rashba-type spin-orbit coupling (SOC) in molecular beam epitaxy-grown Al$_x$In$_{1-x}$Sb/InSb/CdTe quantum well heterostructures is reported. The effective band bending provides robust two-dimensional quantum confinement, while the unidirectional built-in electric field from the asymmetric hetero-interfaces results in pronounced Rashba SOC strength. By tuning the Al concentration in the top Al$_x$In$_{1-x}$Sb barrier layer, the optimal structure with $x = 0.15$ shows the largest Rashba coefficient of 0.23 eV-Angstrom. and the highest low-temperature electron mobility of 4400 cm$^2$/Vs . Quantitative investigations of the weak anti-localization effect further confirm the dominant D'yakonov-Perel (DP) spin relaxation mechanism during charge-to-spin conversion. These findings highlight the significance of quantum well engineering in shaping magneto-resistance responses, and narrow bandgap semiconductor-based heterostructures may offer a reliable platform for energy-efficient spintronic applications.

Published
2024

4. From squared amplitudes to energy correlators

Author

He, Song, Jiang, Xuhang, Yang, Qinglin, and Zhang, Yao-Qi

Subjects
High Energy Physics - Theory, High Energy Physics - Phenomenology
Abstract

The leading order $N$-point energy correlators of maximally supersymmetric Yang-Mills theory in the limit where the $N$ detectors are collinear can be expressed as an integral of the $1\to N$ splitting function, which is given by the $(N{+}3)$-point squared super-amplitudes at tree level. This provides yet another example that the integrand of certain physical observable -- $N$-point energy correlator -- is computed by the canonical form of a positive geometry -- the (tree-level) "squared amplituhedron". By extracting such squared amplitudes from the $f$-graph construction, we compute the integrand of energy correlators up to $N=11$ and reveal new structures to all $N$; we also show important properties of the integrand such as soft and multi-collinear limits. Finally, we take a first look at integrations by studying possible residues of the integrand: our analysis shows that while this gives prefactors in front of multiple polylogarithm functions of $N=3,4$, the first unknown case of $N=5$ already involves elliptic polylogarithmic functions with many distinct elliptic curves, and more complicated curves and higher-dimensional varieties appear for $N>5$., Comment: 10 pages, several figures and tables, and an ancillary file with squared amplitudes up to 12 points, and explicit EC integrands up to 7 points

Published
2024

5. Differential equations and recursive solutions for cosmological amplitudes

Author

He, Song, Jiang, Xuhang, Liu, Jiahao, Yang, Qinglin, and Zhang, Yao-Qi

Subjects
High Energy Physics - Theory, Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

Recently considerable efforts have been devoted to computing cosmological correlators and the corresponding wavefunction coefficients, as well as understanding their analytical structures. In this note, we revisit the computation of these ``cosmological amplitudes" associated with any tree or loop graph for conformal scalars with time-dependent interactions in the power-law FRW universe, directly in terms of iterated time integrals. We start by decomposing any such cosmological amplitude (for loop graph, the ``integrand" prior to loop integrations) as a linear combination of {\it basic time integrals}, one for each {\it directed graph}. We derive remarkably simple first-order differential equations involving such time integrals with edges ``contracted" one at a time, which can be solved recursively and the solution takes the form of Euler-Mellin integrals/generalized hypergeometric functions. By combining such equations, we then derive a complete system of differential equations for all time integrals needed for a given graph. Our method works for any graph: for a tree graph with $n$ nodes, this system can be transformed into the {\it canonical differential equations} of size $4^{n{-}1}$ quivalent to the graphic rules derived recently%so-called ``kinematic flow", and we also derive the system of differential equations for loop integrands {\it e.g.} of all-loop two-site graphs and one-loop $n$-gon graphs. Finally, we show how the differential equations truncate for the de Sitter (dS) case (in a way similar to differential equations for Feynman integrals truncate for integer dimensions), which immediately yields the complete symbol for the dS amplitude with interesting structures {\it e.g.} for $n$-site chains and $n$-gon cases., Comment: 43 pages; many figures

Published
2024

6. Wave functions in the Critical Phase: a Planar \textit{Sierpi\'{n}ski} Fractal Lattice

Author

Yao, Qi, Yang, Xiaotian, Iliasov, Askar A., Katsnelson, Mikhail I., and Yuan, Shengjun

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

Electronic states play a crucial role in many quantum systems of moire superlattices, quasicrystals, and fractals. As recently reported in \textit{Sierpi\'{n}ski} lattices [Phys. Rev. B 107, 115424 (2023)], the critical states are revealed by the energy level-correlation spectra, which are caused by the interplay between aperiodicity and determined self-similarity characters. In the case of the \textit{Sierpi\'{n}ski Carpet}, our results further demonstrate that there is some degree of spatial overlap between these electronic states. These states could be strongly affected by its `seed lattice' of the $generator$, and slightly modulated by the dilation pattern and the geometrical self-similarity level. These electronic states are multifractal by scaling the $q$-order inverse participation ratio or fractal dimension, which correlates with the subdiffusion behavior. In the $gene$ pattern, the averaged state-based multifractal dimension of second-order would increase as its \textit{Hausdoff dimension} increases. Our findings could potentially contribute to understanding quantum transports and single-particle quantum dynamics in fractals., Comment: 10 pages, 6 figures. Accepted by Phys. Rev. B

Published
2024
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7. Bose-Einstein condensation of polaritons at room temperature in a GaAs/AlGaAs structure

Author

Alnatah, Hassan, Yao, Qi, Wan, Qiaochu, Beaumariage, Jonathan, West, Ken, Baldwin, Kirk, Pfeiffer, Loren N., and Snoke, David W.

Subjects
Condensed Matter - Quantum Gases
Abstract

We report the canonical properties of Bose-Einstein condensation of polaritons, seen previously in many low-temperature experiments, at room temperature in a GaAs/AlGaAs structure. These effects include a nonlinear energy shift of the polaritons, showing that they are not non-interacting photons, and dramatic line narrowing due to coherence, giving coherent emission with spectral width of 0.24 meV at room temperature with no external stabilization. This opens up the possibility of room temperature nonlinear optical devices based on polariton condensation.

Published
2024

8. Measurement of exciton fraction of microcavity exciton-polaritons using transfer-matrix modeling

Author

Beaumariage, Jonathan, Sun, Zheng, Alnatah, Hassan, Yao, Qi, Myers, David M., Steger, Mark, West, Ken, Baldwin, Kirk, Pfeiffer, Loren N., Tam, Man Chun Alan, Wailewski, Zbig R., and Snoke, David W.

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

We present a careful calibration of the exciton fraction of polaritons in high-$Q$ ($\sim 300,000$), long-lifetime ($\sim 300$ ps), GaAs/AlGaAs microcavities.This is a crucial parameter for many-body theories which include the polariton-polariton interactions.It is much harder to establish this number in high-$Q$ structures compared to low-$Q$ structures, because the upper polariton is nearly invisible in high-$Q$ cavities.We present a combination of photoluminescence, photoluminescence excitation, and reflectivity measurements to highly constrain the fit model, and compare the results of this model to the results from low-$Q$ structures.We present a fitted curve of exciton fraction as a function of the lower polariton energy for multiple samples which have been used in prior experiments., Comment: 16 pages, 11 figures

Published
2024

9. Electronic states and quantum transport in bilayer graphene Sierpinski-carpet fractals

Author

Yang, Xiaotian, Zhou, Weiqing, Yao, Qi, Li, Yunhai, Wang, Yunhua, and Yuan, Shengjun

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We construct Sierpinski-carpet (SC) based on AA or AB bilayer graphene by atom vacancies, namely, SC-AA and SC-AB, to investigate the effects of interlayer coupling on the electronic properties of fractals. Compared with monolayer graphene SC, their density of states have similar features, such as Van-Hove singularities and edge states corresponding to the central peaks near zero energy, but remarkable energy broadening of edge states emerges in SC-AA(AB). Calculated conductance spectrum shows that the conductance fluctuations still hold the Hausdorff fractal dimension behavior even with the interlayer coupling. Thus, the high correlation between quantum conductance and fractal geometry dimension is not affected by the interlayer coupling in bilayer graphene SC. We further reveal the quasi-eigenstates in fractal-like pressure-modulated bilayer graphene, namely, SC-pAA and SC-pAB. Numerical results show that the density of states of SC-pAA(pAB) show an asymptotic behavior to those of SC-AA(AB) especially for high energy quasi-eigenstates. Within a certain energy range, stronger pressure can lead to stronger localization, forming an efficient fractal space.

Published
2024

11. One-loop Bern-Carrasco-Johansson Numerators on Quadratic Propagators from the Worldsheet

Author

Dong, Jin, Zhang, Yao-Qi, and Zhang, Yong

Subjects
High Energy Physics - Theory
Abstract

We introduce a novel approach for deriving one-loop Bern-Carrasco-Johansson (BCJ) numerators and reveal the worldsheet origin of the one-loop double copy. Our work shows that expanding Cachazo-He-Yuan half-integrands into generalized Parke-Taylor factors intrinsically generates BCJ numerators on quadratic propagators satisfying Jacobi identities. We validate our methodology by successfully reproducing one-loop BCJ numerators for Non-Linear Sigma Model as well as those of pure Yang-Mills theory in four dimensions with all-plus or single-minus helicities., Comment: 6+6 pages, three figures. v2: minimal cosmetic changes, matches the published version in PRD

Published
2023
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16. Interplay between moment-dependent and field-driven unidirectional magnetoresistance in CoFeB/InSb/CdTe heterostructures

Author

Liu, Jiuming, Liao, Liyang, Rong, Bin, Wu, Yuyang, Zhang, Yu, Ruan, Hanzhi, Zhi, Zhenghang, Huang, Puyang, Yao, Shan, Cai, Xinyu, Tang, Chenjia, Yao, Qi, Sun, Lu, Yang, Yumeng, Yu, Guoqiang, Che, Renchao, and Kou, Xufeng

Subjects
Physics - Applied Physics
Abstract

Magnetoresistance effects are crucial for understanding the charge/spin transport as well as propelling the advancement of spintronic applications. Here we report the coexistence of magnetic moment-dependent (MD) and magnetic field-driven (FD) unidirectional magnetoresistance (UMR) effects in CoFeB/InSb/CdTe heterostructures. The strong spin-orbital coupling of InSb and the matched impedance at the CoFeB/InSb interface warrant a distinct MD-UMR effect at room temperature, while the interaction between the in-plane magnetic field and the Rashba effect at the InSb/CdTe interface induces the marked FD-UMR signal that dominates the high-field region. Moreover, owning to the different spin transport mechanisms, these two types of nonreciprocal charge transport show opposite polarities with respect to the magnetic field direction, which further enable an effective phase modulation of the angular-dependent magnetoresistance. Besides, the demonstrations of both the tunable UMR response and two-terminal spin-orbit torque-driven magnetization switching validate our CoFeB/InSb/CdTe system as a suitable integrated building block for multifunctional spintronic device design.

Published
2023

17. N6-methyladenosine regulators in hepatocellular carcinoma: investigating the precise definition and clinical applications of biomarkers

Author

Xiaokai Yan, Yao Qi, Xinyue Yao, Lulu Yin, Hao Wang, Ji Fu, Guo Wan, Yanqun Gao, Nanjing Zhou, Xinxin Ye, Xiao Liu, and Xing Chen

Subjects
Hepatocellular carcinoma, m6A regulators, Large-scale data analysis, Precise definition of biomarkers, Risk models, Clinical applications, Biology (General), QH301-705.5
Abstract

Abstract Background Accurately identifying effective biomarkers and translating them into clinical practice have significant implications for improving clinical outcomes in hepatocellular carcinoma (HCC). In this study, our objective is to explore appropriate methods to improve the accuracy of biomarker identification and investigate their clinical value. Methods Concentrating on the N6-methyladenosine (m6A) modification regulators, we utilized dozens of multi-omics HCC datasets to analyze the expression patterns and genetic features of m6A regulators. Through the integration of big data analysis with function experiments, we have redefined the biological roles of m6A regulators in HCC. Based on the key regulators, we constructed m6A risk models and explored their clinical value in estimating prognosis and guiding personalized therapy for HCC. Results Most m6A regulators exhibit abnormal expression in HCC, and their expression is influenced by copy number variations (CNV) and DNA methylation. Large-scale data analysis has revealed the biological roles of many key m6A regulators, and these findings are well consistent with experimental results. The m6A risk models offer significant prognostic value. Moreover, they assist in reassessing the therapeutic potential of drugs such as sorafenib, gemcitabine, CTLA4 and PD1 blockers in HCC. Conclusions Our findings suggest that the mutual validation of big data analysis and functional experiments may facilitate the precise identification and definition of biomarkers, and our m6A risk models may have the potential to guide personalized chemotherapy, targeted treatment, and immunotherapy decisions in HCC.

Published
2024
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18. BSMH: Cross‐dataset object detection based on box‐separated multiple‐head

Author

Feng Lu, You Chun Xu, Yao Qi, De Sheng Xie, and Yogn Le Li

Subjects
computer vision, object detection, Photography, TR1-1050, Computer software, QA76.75-76.765
Abstract

Abstract Cross‐dataset object detection methods can adapt to the needs of rapid category expansion in object detection tasks. However, these methods are prone to generate dataset‐aware errors with false alarm objects. This study is aimed to address these issues. A box‐separated multiple‐head module and box‐separated loss function based on the YOLOv8 network are devised to achieve cross‐dataset object detection. Additionally, a sameclass‐aware fusion module to avoid gradient conflicts due to cross‐category conflicts is developed. A multiple‐head fusion module is devised to reduce the number of false alarm objects caused by dataset‐aware errors. A global class‐aware sampler is also designed to adapt to the impact of the imbalanced number of categories and training samples across datasets. The effectiveness of the box‐separated multiple‐head module is verified using cross‐datasets built using the COCO, WiderFace, WiderPerson, and OpenImages V4 datasets. Extensive experiments demonstrate the efficiency and precision of the proposed method.

Published
2024
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19. Controlling Character Motions without Observable Driving Source

Author

Li, Weiyuan, Dai, Bin, Zhou, Ziyi, Yao, Qi, and Wang, Baoyuan

Subjects
Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

How to generate diverse, life-like, and unlimited long head/body sequences without any driving source? We argue that this under-investigated research problem is non-trivial at all, and has unique technical challenges behind it. Without semantic constraints from the driving sources, using the standard autoregressive model to generate infinitely long sequences would easily result in 1) out-of-distribution (OOD) issue due to the accumulated error, 2) insufficient diversity to produce natural and life-like motion sequences and 3) undesired periodic patterns along the time. To tackle the above challenges, we propose a systematic framework that marries the benefits of VQ-VAE and a novel token-level control policy trained with reinforcement learning using carefully designed reward functions. A high-level prior model can be easily injected on top to generate unlimited long and diverse sequences. Although we focus on no driving sources now, our framework can be generalized for controlled synthesis with explicit driving sources. Through comprehensive evaluations, we conclude that our proposed framework can address all the above-mentioned challenges and outperform other strong baselines very significantly.

Published
2023

20. Coherence measurements of polaritons in thermal equilibrium reveal a power law for two-dimensional condensates

Author

Alnatah, Hassan, Yao, Qi, Beaumariage, Jonathan, Mukherjee, Shouvik, Tam, Man Chun, Wasilewski, Zbigniew, West, Ken, Baldwin, Kirk, Pfeiffer, Loren N., and Snoke, David W.

Subjects
Condensed Matter - Quantum Gases
Abstract

We have created a spatially homogeneous polariton condensate in thermal equilibrium, up to very high condensate fraction. Under these conditions, we have measured the coherence as a function of momentum, and determined the total coherent fraction of this boson system from very low density up to density well above the condensation transition. These measurements reveal a consistent power law for the coherent fraction as a function of the total density over nearly three orders of its magnitude. The same power law is seen in numerical simulations solving the two-dimensional Gross-Pitaevskii equation for the equilibrium coherence. This power law has not been predicted by prior analytical theories.

Published
2023

21. Geodesic Equations on asymptotically locally Euclidean K\'ahler manifolds

Author

Yao, Qi

Subjects
Mathematics - Differential Geometry, Mathematics - Analysis of PDEs, 53C55, 35B40, 35B45
Abstract

We solve the geodesic equation in the space of K\"ahler metrics under the setting of asymptotically locally Euclidean (ALE) K\"ahler manifolds and we prove global $\mathcal{C}^{1,1}$ regularity of the solution. Then, we relate the solution of the geodesic equation to the uniqueness of scalar-flat ALE metrics. To this end, we study the asymptotic behavior of $\varepsilon$-geodesics at spatial infinity. Under the assumption that the Ricci curvature of a reference ALE K\"ahler metric is non-positive, convexity of the Mabuchi $K$-energy along $\varepsilon$-geodesics. However, we will also prove that on the line bundle $\mathcal{O}(-k)$ over $\mathbb{C}\mathbb{P}^{n-1}$ with $n \geq 2$ and $k \neq n$, no ALE K\"ahler metric can have non-positive (or non-negative) Ricci curvature., Comment: 27 pages. Just to update financial support information

Published
2023

30. Global fungal-host interactome mapping identifies host targets of candidalysin

Author

Zhang, Tian-Yi, Chen, Yao-Qi, Tan, Jing-Cong, Zhou, Jin-An, Chen, Wan-Ning, Jiang, Tong, Zha, Jin-Yin, Zeng, Xiang-Kang, Li, Bo-Wen, Wei, Lu-Qi, Zou, Yun, Zhang, Lu-Yao, Hong, Yue-Mei, Wang, Xiu-Li, Zhu, Run-Ze, Xu, Wan-Xing, Xi, Jing, Wang, Qin-Qin, Pan, Lei, Zhang, Jian, Luan, Yang, Zhu, Rui-Xin, Wang, Hui, Chen, Changbin, and Liu, Ning-Ning

Published
2024
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32. Emergent unitarity, all-loop cuts and integrations from the ABJM amplituhedron

Author

He, Song, Kuo, Chia-Kai, Li, Zhenjie, and Zhang, Yao-Qi

Subjects
High Energy Physics - Theory
Abstract

We elaborate on aspects of a new positive geometry proposed recently, which was conjectured to be the four-point amplituhedron for ABJM theory. We study generalized unitarity cuts from the geometry, and in particular we prove that (1) the four-point integrand satisfies perturbative unitarity (or optical theorem) to all loops, which follows directly from the geometry, and (2) vanishing cuts involving odd-point amplitudes follow from the ``bipartite" nature of the associated ``negative geometries", which justifies their appearance in ABJM theory. We also take a first step in integrating the forms of these negative geometries and obtain an infrared-finite quantity up to two loops, from which we extract the cusp anomalous dimension at leading order., Comment: 21 pages, many figures,minor changes

Published
2023
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33. Paired organoids from primary gastric cancer and lymphatic metastasis are useful for personalized medicine

Author

Ruixin Yang, Yao Qi, Wingyan Kwan, Yutong Du, Ranlin Yan, Lu Zang, Xuexin Yao, Chen Li, Zhenggang Zhu, Xiaoyan Zhang, Hengjun Gao, Io Hong Cheong, Zisis Kozlakidis, and Yingyan Yu

Subjects
Gastric cancer, Living biobank, Organoid models, Drug sensitivity, Translational usage, Medicine
Abstract

Abstract Background Organoids are approved by the US FDA as an alternative to animal experiments to guide drug development and for sensitivity screening. Stable organoids models of gastric cancer are desirable for personalized medicine and drug screening. Methods Tumor tissues from a primary cancer of the stomach and metastatic cancer of the lymph node were collected for 3D culture. By long-term culture for over 50 generations in vitro, we obtained stably growing organoid lines. We analyzed short tandem repeats (STRs) and karyotypes of cancer cells, and tumorigenesis of the organoids in nude mice, as well as multi-omics profiles of the organoids. A CCK8 method was used to determine the drugs sensitivity to fluorouracil (5-Fu), platinum and paclitaxel. Results Paired organoid lines from primary cancer (SPDO1P) and metastatic lymph node (SPDO1LM) were established with unique STRs and karyotypes. The organoid lines resulted in tumorigenesis in vivo and had clear genetic profiles. Compared to SPDO1P from primary cancer, upregulated genes of SPDO1LM from the metastatic lymph node were enriched in pathways of epithelial-mesenchymal transition and angiogenesis with stronger abilities of cell migration, invasion, and pro-angiogenesis. Based on drug sensitivity analysis, the SOX regimen (5-Fu plus oxaliplatin) was used for chemotherapy with an optimal clinical outcome. Conclusions The organoid lines recapitulate the drug sensitivity of the parental tissues. The paired organoid lines present a step-change toward living biobanks for further translational usage.

Published
2024
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34. Pathomics and single-cell analysis of papillary thyroid carcinoma reveal the pro-metastatic influence of cancer-associated fibroblasts

Author

Yixian Wang, Xin Li, Qingwei Gang, Yinde Huang, Mingyu Liu, Han Zhang, Shikai Shen, Yao Qi, and Jian Zhang

Subjects
Papillary thyroid carcinoma, Cancer-associated fibroblasts, Pathomics, Single-cell RNA sequencing, Deep learning, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Papillary thyroid carcinoma (PTC) is globally prevalent and associated with an increased risk of lymph node metastasis (LNM). The role of cancer-associated fibroblasts (CAFs) in PTC remains unclear. Methods We collected postoperative pathological hematoxylin–eosin (HE) slides from 984 included patients with PTC to analyze the density of CAF infiltration at the invasive front of the tumor using QuPath software. The relationship between CAF density and LNM was assessed. Single-cell RNA sequencing (scRNA-seq) data from GSE193581 and GSE184362 datasets were integrated to analyze CAF infiltration in PTC. A comprehensive suite of in vitro experiments, encompassing EdU labeling, wound scratch assays, Transwell assays, and flow cytometry, were conducted to elucidate the regulatory role of CD36+CAF in two PTC cell lines, TPC1 and K1. Results A significant correlation was observed between high fibrosis density at the invasive front of the tumor and LNM. Analysis of scRNA-seq data revealed metastasis-associated myoCAFs with robust intercellular interactions. A diagnostic model based on metastasis-associated myoCAF genes was established and refined through deep learning methods. CD36 positive expression in CAFs can significantly promote the proliferation, migration, and invasion abilities of PTC cells, while inhibiting the apoptosis of PTC cells. Conclusion This study addresses the significant issue of LNM risk in PTC. Analysis of postoperative HE pathological slides from a substantial patient cohort reveals a notable association between high fibrosis density at the invasive front of the tumor and LNM. Integration of scRNA-seq data comprehensively analyzes CAF infiltration in PTC, identifying metastasis-associated myoCAFs with strong intercellular interactions. In vitro experimental results indicate that CD36 positive expression in CAFs plays a promoting role in the progression of PTC. Overall, these findings provide crucial insights into the function of CAF subset in PTC metastasis.

Published
2024
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36. Record-high Mobility and Extreme Magnetoresistance on Kagome-lattice in Compensated Semimetal Ni3In2S2

Author

Fang, Hongwei, Lyu, Meng, Su, Hao, Yuan, Jian, Li, Yiwei, Xu, Lixuan, Liu, Shuai, Wei, Liyang, Liu, Xinqi, Yang, Haifeng, Yao, Qi, Wang, Meixiao, Guo, Yanfeng, Shi, Wujun, Chen, Yulin, Liu, Enke, and Liu, Zhongkai

Subjects
Condensed Matter - Materials Science
Abstract

The kagome-lattice crystal hosts various intriguing properties including the frustrated magnetism, charge order, topological state, superconductivity and correlated phenomena. To achieve high-performance kagome-lattice compounds for electronic and spintronic applications, careful tuning of the band structure would be desired. Here, the electronic structures of kagome-lattice crystal Ni3In2S2 were investigated by transport measurements, angle-resolved photoemission spectroscopy as well as ab initio calculations. The transport measurements reveal Ni3In2S2 as a compensated semimetal with record-high carrier mobility (~8683 cm2 V-1 S-1 and 7356 cm2 V-1 S-1 for holes and electrons) and extreme magnetoresistance (15518% at 2 K and 13 T) among kagome-lattice materials. These extraordinary properties are well explained by its band structure with indirect gap, small electron/hole pockets and large bandwidth of the 3d electrons of Ni on the kagome lattice. This work demonstrates that the crystal field and doping serve as the key tuning knobs to optimize the transport properties in kagome-lattice crystals. Our work provides material basis and optimization routes for kagome-lattice semimetals as electronics and spintronics applications.

Published
2023
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37. Level-spectra Statistics in Planar Fractal Tight-Binding Models

Author

Yao, Qi, Yang, Xiao-Tian, Iliasov, Askar A., Katsnelson, M. I., and Yuan, Shengjun

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In this communication, we study the level-spectra statistics when a noninteracting electron gas is confined in \textit{Sierpi\'{n}ski Carpet} (\textit{SC}) lattices. These \textit{SC} lattices are constructed under two representative patterns of the $self$ and $gene$ patterns, and classified into two subclass lattices by the area-perimeter scaling law. By the singularly continuous spectra and critical traits using two level-statistic tools\iffalse the nearest spacing distribution and alternative gap-ratio distribution\fi, we ascertain that both obey the critical phase due to broken translation symmetry and the long-range order of scaling symmetry. The Wigner-like conjecture is confirmed numerically since both belong to the Gaussian orthogonal ensemble. An analogy was observed in a quasiperiodic lattice~\cite{Zhong1998Level}. In addition, this critical phase isolates the crucial behavior near the metal-insulator transition edge in Anderson model. The lattice topology of the self-similarity feature can induce level clustering behavior., Comment: 11 pages, 6 figures, 2 Tables

Published
2022
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38. The progress of Mycobacterium tuberculosis drug targets

Author

Xin Zhang, Ruixia Zhao, Yao Qi, Xiong Yan, Gaoxiu Qi, and Qiuju Peng

Subjects
Mycobacterium tuberculosis, anti-tuberculosis drug, target, cell wall synthesis correlation, DNA/RNA synthesis correlation, energy metabolism, Medicine (General), R5-920
Abstract

Tuberculosis (TB) has been troubling humans for hundreds of years, is a highly infectious disease caused by Mycobacterium tuberculosis (Mtb) infection, Mtb can infect almost all organs of the body and is one of the deadly infectious diseases in the world. At present, the first-line treatment regimen has a long treatment cycle and is prone to multiple drug resistance. Anti-tuberculosis drugs and latent tuberculosis infection (LTBI) resistance are increasing year by year, and new targets and new bioactive compounds are urgently needed to treat this disease. This review focuses on the latest reported anti-TB drug targets and related compounds in recent years, reviews the current TB drug regimen and major defects, outlines the key drug targets developed to date in Mtb, and the current situation of newly discovered anti-TB resistant forms of drugs. To provide a reference for the research and development of new anti-TB drugs and bring new treatment strategies for TB patients.

Published
2024
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39. Enhancing the color and astringency of red wines through white grape seeds addition: Repurposing wine production byproducts

Author

Nong-Yu Xia, Ao-Yi Liu, Meng-Yao Qi, Hua-Lin Zhang, Yong-Ce Huang, Fei He, Chang-Qing Duan, and Qiu-Hong Pan

Subjects
Grape seeds, Color, Astringency, Anthocyanin, Anthocyanin derivatives, Flavonoid compounds, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456
Abstract

The clear juice fermentation technique for white wines suggests that white grape seeds, rich in flavan-3-ols and proanthocyanidins, are not effectively utilized in the winemaking process. This study incorporated ‘Gewürztraminer’ grape seeds into ‘Cabernet Sauvignon’ must before cold soak to investigate how the resultant red wines' phenolic compound profiles, color, and astringency were affected. The results showed that adding seeds primarily inhibited the leaching of flavan-3-ols from both skins and seeds. A significant increase in the levels of flavan-3-ols, tannins, and phenolic acids, as well as direct and aldehyde-bridged flavan-3-ol-anthocyanin polymers, were observed in the wines with additional seeds. This led to the improvement in the wine’ red hue and its resistance to SO2 bleaching. Furthermore, the wine added with seeds exhibited stronger astringency compared to those without. The findings provide a promising winemaking strategy to improve color stability and intensify the astringency of red wines through the utilization of grape seeds.

Published
2024
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40. Reversible Data Hiding Based on Octree Partitioning and Arithmetic Coding in Encrypted Three-Dimensional Mesh Models

Author

Wu, Xiaochun, Zhang, Jiawang, Yao, Qi, Lyu, Wanli, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Huang, De-Shuang, editor, Chen, Wei, editor, and Guo, Jiayang, editor

Published
2024
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42. Covariant color-kinematics duality, Hopf algebras and permutohedra

Author

Cao, Qu, Dong, Jin, He, Song, and Zhang, Yao-Qi

Subjects
High Energy Physics - Theory
Abstract

Based on the covariant color-kinematics duality, we investigate combinatorial and algebraic structures underlying their Bern-Carrasco-Johansson (BCJ) numerators of tree-level amplitudes in Yang-Mills-scalar (YMS) theory. The closed-formulae for BCJ numerators of YMS amplitudes and the pure-Yang-Mills (YM) ones exhibit nice quasi-shuffle Hopf algebra structures, and interestingly they can be viewed as summing over boundaries of all dimensions of a combinatorial permutohedron. In particular, the numerator with two scalars and $n{-}2$ gluons contains Fubini number ( $F_{n{-}2}$ ) of terms in one-to-one correspondence with boundaries of a $(n{-}3)$-dimensional permutohedron, and each of them has its own spurious-pole structures and a gauge-invariant numerator (both depending on reference momenta). From such Hopf algebra or permutohedron structure, we derive new recursion relations for the numerators and intriguing "factorization" on each spurious pole/facet of the permutohedron. Similar results hold for general YMS numerators and the pure-YM ones. Finally, with a special choice of reference momenta, our results imply BCJ numerators in a heavy-mass effective field theory with two massive particles and $n{-}2$ gluons/gravitons: we observe highly nontrivial cancellations in the heavy-mass limit, leading to new formulae for the effective numerators which resemble those obtained in recent works., Comment: 8 pages+appendices, 16 figures

Published
2022
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43. Overlooked Video Classification in Weakly Supervised Video Anomaly Detection

Author

Tan, Weijun, Yao, Qi, and Liu, Jingfeng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Current weakly supervised video anomaly detection algorithms mostly use multiple instance learning (MIL) or their varieties. Almost all recent approaches focus on how to select the correct snippets for training to improve the performance. They overlook or do not realize the power of video classification in boosting the performance of anomaly detection. In this paper, we study explicitly the power of video classification supervision using a BERT or LSTM. With this BERT or LSTM, CNN features of all snippets of a video can be aggregated into a single feature which can be used for video classification. This simple yet powerful video classification supervision, combined into the MIL framework, brings extraordinary performance improvement on all three major video anomaly detection datasets. Particularly it improves the mean average precision (mAP) on the XD-Violence from SOTA 78.84\% to new 82.10\%. The source code is available at https://github.com/wjtan99/BERT_Anomaly_Video_Classification., Comment: arXiv admin note: text overlap with arXiv:2101.10030 by other authors

Published
2022

44. Integrated Artificial Neural Network with Trainable Activation Function Enabled by Topological Insulator-based Spin-Orbit Torque Devices

Author

Huang, Puyang, Liu, Xinqi, Xin, Yue, Gu, Yu, Lee, Albert, Xu, Zhuo, Chen, Peng, Zhang, Yu, Deng, Weijie, Yu, Guoqiang, Liu, Zhongkai, Yao, Qi, Yang, Yumeng, Zhu, Zhifeng, and Kou, Xufeng

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Non-volatile memristors offer a salient platform for artificial neural network (ANN), but the integration of different function blocks into one hardware system remains challenging. Here we demonstrate the implementation of brain-like synaptic (SOT-S) and neuronal (SOT-N) functions in the Bi2Te3/CrTe2 heterostructure-based spin-orbit torque (SOT) device. The SOT-S unit exhibits highly linear (linearity error < 4.19%) and symmetrical long-term potentiation/depression process, resulting in better performance compared to other memristor synapses. Meanwhile, the Sigmoid-shape transition curve inherited in the SOT-N cell replaces the software-based activation function block, hence reducing the system complexity. On this basis, we employ a serial-connected, voltage-mode sensing ANN architecture to enhance the vector-matrix multiplication signal strength with low reading error of 0.61%. Furthermore, the trainable activation function of SOT-N enables the integrated SOT-ANN to execute the Batch Normalization algorithm and activation operation within one clock cycle, which bring about improved on/off-chip training performance close to the ideal baseline.

Published
2022

45. Ballistic transport of a polariton ring condensate with spin precession

Author

Yao, Qi, Sedov, Evgeny, Mukherjee, Shouvik, Beaumariage, Jonathan, Ozden, Burcu, West, Ken, Pfeiffer, Loren, Kavokin, Alexey, and Snoke, David

Subjects
Condensed Matter - Quantum Gases
Abstract

It is now routine to make Bose-Einstein condensates of polaritons with long enough lifetime and low enough disorder to travel ballistically for hundreds of microns in quasi-one-dimensional (1D) wires. We present observations of a polariton condensate injected at one point in a quasi-1D ring, with a well-defined initial velocity and direction. A clear precession of the circular polarization is seen, which arises from an effective spin-orbit coupling term in the Hamiltonian. Our theoretical model accurately predicts the experimentally observed behavior, and shows that "zitterbewegung" behavior plays a role in the motion of the polaritons., Comment: accepted by Phys. Rev. B

Published
2022
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48. Wafer-scale epitaxial growth of the thickness-controllable van der Waals ferromagnet CrTe2 for reliable magnetic memory applications

Author

Liu, Xinqi, Xia, Yunyouyou, Gao, Lei, Huang, Puyang, Liao, Liyang, Cui, Baoshan, Backes, Dirk, van der Laan, Gerrit, Hesjedal, Thorsten, Ji, Yuchen, Chen, Peng, Wu, Fan, Wang, Meixiao, Zhang, Junwei, Yu, Guoqiang, Song, Cheng, Chen, Yulin, Liu, Zhongkai, Yang, Yumeng, Peng, Yong, Li, Gang, Yao, Qi, and Kou, Xufeng

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

To harness the intriguing properties of two-dimensional van der Waals (vdW) ferromagnets (FMs) for versatile applications, the key challenge lies in the reliable material synthesis for scalable device production. Here, we demonstrate the epitaxial growth of single-crystalline 1T-CrTe2 thin films on 2-inch sapphire substrates. Benefiting from the uniform surface energy of the dangling bond-free Al2O3(0001) surface, the layer-by-layer vdW growth mode is observed right from the initial growth stage, which warrants precise control of the sample thickness and atomically smooth surface morphology across the entire wafer. Moreover, the presence of the Coulomb interaction at the CrTe2/Al2O3 interface serves as an effective tuning parameter to tailor the anomalous Hall response, and the structural optimization of the CrTe2-based spin-orbit torque device leads to a substantial switching power reduction by 54%. Our results may lay out a general framework for the design of energy-efficient spintronics based on configurable vdW FMs., Comment: 20 pages, 4 figures

Published
2022
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49. Two-Stage COVID19 Classification Using BERT Features

Author

Tan, Weijun, Yao, Qi, and Liu, Jingfeng

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

We propose an automatic COVID1-19 diagnosis framework from lung CT-scan slice images using double BERT feature extraction. In the first BERT feature extraction, A 3D-CNN is first used to extract CNN internal feature maps. Instead of using the global average pooling, a late BERT temporal pooing is used to aggregate the temporal information in these feature maps, followed by a classification layer. This 3D-CNN-BERT classification network is first trained on sampled fixed number of slice images from every original CT scan volume. In the second stage, the 3D-CNN-BERT embedding features are extracted on all slice images of every CT scan volume, and these features are averaged into a fixed number of segments. Then another BERT network is used to aggregate these multiple features into a single feature followed by another classification layer. The classification results of both stages are combined to generate final outputs. On the validation dataset, we achieve macro F1 score of 0.9164., Comment: arXiv admin note: text overlap with arXiv:2106.14403

Published
2022

50. Mass and Expansion of Asymptotically Conical K\'ahler Metrics

Author

Yao, Qi

Subjects
Mathematics - Differential Geometry
Abstract

We prove an expansion theorem on scalar-flat asymptotically conical K\"ahler metrics. Consider an AC K\"ahler manifold with asymptotic to a Ricci-flat K\"ahler metric cone with complex dimension n. Assuming the weak decay conditions required for the mass to be well-defined, then each scalar-flat AC K\"ahler metric admits an expansion that the main term is given by the standard K\"ahler metric of the metric cone and the leading error term is of O(r^{2-2n}) with coefficient only depending on the ADM mass and its dimension. Besides, the mass formula by Hein-LeBrun also can be proved in our setting. As an application, a new version of the positive mass theorem will be discussed in the cases of the resolutions of the Ricci-flat K\"ahler cones., Comment: 28 pages

Published
2022

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