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1. Crystal valley Hall effect

Author

Tan, Chao-Yang, Gao, Ze-Feng, Yang, Huan-Cheng, Liu, Zheng-Xin, Liu, Kai, Guo, Peng-Jie, and Lu, Zhong-Yi

Subjects
Condensed Matter - Materials Science
Abstract

The time-reversal symmetry is thought to be a necessary condition for realizing valley Hall effect. If the time-reversal symmetry is broken, whether the valley Hall effect can be realized has not been explored. In this letter, based on symmetry analysis and the first-principles electronic structure calculations, we demonstrate that the vally Hall effect without time-reversal symmetry can be realized in two-dimensional altermagnetic materials Fe$_2$WSe$_4$ and Fe$_2$WS$_4$. Due to crystal symmetry required, the vally Hall effect without time-reversal symmetry is called crystal vally Hall effect. In addition, under uniaxial strain, both monolayer Fe$_2$WSe$_4$ and Fe$_2$WS$_4$ can realize piezomagnetic effect. Under biaxial compressive stress, both monolayer Fe$_2$WSe$_4$ and Fe$_2$WS$_4$ will transform from altermagnetic semiconductor phase to bipolarized topological Weyl semimetal phase. Our work not only provides a new direction for exploring the novel valley Hall effect, but also provides a good platform for exploring altermagnetic semiconductors and altermagnetic topological phase transitions., Comment: 6 pages,4 figures

Published
2024

2. Altermagnetic Weyl node-network semimetals protected by spin symmetry

Author

Qu, Shuai, Hou, Xiao-Yao, Liu, Zheng-Xin, Guo, Peng-Jie, and Lu, Zhong-Yi

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

Symmetry protected topology has been studied extensively in the past twenty years, but the topology protected by spin symmetry has just begun to be studied. In this work, based on spin symmetry analysis, we propose that a class of Weyl nodal line semimetals is protected by the spin symmetry. Then, by the first-principles electronic structure calculations, we predict that both altermagnetic $\rm Nb_2FeB_2$ and $\rm Ta_2FeB_2$ are node-network semimetals protected by the spin symmetry. Moreover, both altermagnetic $\rm Nb_2FeB_2$ and $\rm Ta_2FeB_2$ have nodal rings protected by the mirror symmetry and Dirac points protected by nonsymmorphic spin symmetry. Furthermore, both altermagnetic $\rm Nb_2FeB_2$ and $\rm Ta_2FeB_2$ transform node-network semimetal phase into Weyl semimetal phase when considering spin-orbit coupling. Therefore, our work not only enriches the topological phases protected by spin symmetry, but also provides an excellent material platform to investigate the exotic physical properties of multiple altermagnetic topological semimetal phases in experiment., Comment: 6 pages, 4 figures

Published
2024

3. AI-accelerated discovery of high critical temperature superconductors

Author

Han, Xiao-Qi, Ouyang, Zhenfeng, Guo, Peng-Jie, Sun, Hao, Gao, Ze-Feng, and Lu, Zhong-Yi

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science, Computer Science - Artificial Intelligence, Physics - Computational Physics
Abstract

The discovery of new superconducting materials, particularly those exhibiting high critical temperature ($T_c$), has been a vibrant area of study within the field of condensed matter physics. Conventional approaches primarily rely on physical intuition to search for potential superconductors within the existing databases. However, the known materials only scratch the surface of the extensive array of possibilities within the realm of materials. Here, we develop an AI search engine that integrates deep model pre-training and fine-tuning techniques, diffusion models, and physics-based approaches (e.g., first-principles electronic structure calculation) for discovery of high-$T_c$ superconductors. Utilizing this AI search engine, we have obtained 74 dynamically stable materials with critical temperatures predicted by the AI model to be $T_c \geq$ 15 K based on a very small set of samples. Notably, these materials are not contained in any existing dataset. Furthermore, we analyze trends in our dataset and individual materials including B$_4$CN$_3$ and B$_5$CN$_2$ whose $T_c$s are 24.08 K and 15.93 K, respectively. We demonstrate that AI technique can discover a set of new high-$T_c$ superconductors, outline its potential for accelerating discovery of the materials with targeted properties., Comment: 11 pages, 7 figures, 4 tables

Published
2024

4. Tunneling time in coupled-channel systems

Author

Guo, Peng, Gasparian, Vladimir, Pérez-Garrido, Antonio, and Jódar, Esther

Subjects
Condensed Matter - Other Condensed Matter, Nuclear Theory, Quantum Physics
Abstract

In present work, we present a couple-channel formalism for the description of tunneling time of a quantum particle through a composite compound with multiple energy levels or a complex structure that can be reduced to a quasi-one-dimensional multiple-channel system., Comment: match to accepted version at PRR

Published
2024

5. Bipolarized Weyl semimetals and quantum crystal valley Hall effect in two-dimensional altermagnetic materials

Author

Tan, Chao-Yang, Gao, Ze-Feng, Yang, Huan-Cheng, Liu, Kai, Guo, Peng-Jie, and Lu, Zhong-Yi

Subjects
Condensed Matter - Materials Science
Abstract

Magnetism and topology are two major areas of condensed matter physics. The combination of magnetism and topology gives rise to more novel physical effects, which have attracted strongly theoretical and experimental attention. Recently, the concept of altermagnetism has been introduced, characterized by a dual nature: real-space antiferromagnetism and reciprocal-space anisotropic spin polarization. The amalgamation of altermagnetism with topology may lead to the emergence of previously unobserved topological phases and the associated physical effects. In this study, utilizing a four-band lattice model that incorporates altermagnetism and spin group symmetry, we demonstrate that type-I, type-II, and type-III bipolarized Weyl semimetals can exist in altermagnetic systems. Through the first-principles electronic structure calculations, we predict four ideal two-dimensional type-I altermagnetic bipolarized Weyl semimetals Fe$_2$WTe$_4$ and Fe$_2$MoZ$_4$ (Z=S,Se,Te). More significantly, we introduce the quantum crystal valley Hall effect, a phenomenon achievable in three of these materials namely Fe$_2$WTe$_4$, Fe$_2$MoS$_4$, and Fe$_2$MoTe$_4$, when spin-orbit coupling is considered. Furthermore, these materials have the potential to transition from a quantum crystal valley Hall phase to a Chern insulator phase under strain. In contrast, Fe$_2$MoSe$_4$ remains to be a Weyl semimetal under spin-orbit coupling but is distinguished by possessing only a single pair of Weyl points. Additionally, the position, polarization, and number of Weyl points in Fe$_2$WTe$_4$ and Fe$_2$MoZ$_4$ can be manipulated by adjusting the direction of the N\'eel vector. Consequently, Fe$_2$WTe$_4$ and Fe$_2$MoZ$_4$ emerge as promising experimental platforms for investigating the distinctive physical attributes of various altermagnetic topological phases., Comment: 7 pages, 5 figures

Published
2024

6. Prompt-driven Universal Model for View-Agnostic Echocardiography Analysis

Author

Kim, Sekeun, Ren, Hui, Guo, Peng, Ali, Abder-Rahman, Zhang, Patrick, Kim, Kyungsang, Li, Xiang, and Li, Quanzheng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Echocardiography segmentation for cardiac analysis is time-consuming and resource-intensive due to the variability in image quality and the necessity to process scans from various standard views. While current automated segmentation methods in echocardiography show promising performance, they are trained on specific scan views to analyze corresponding data. However, this solution has a limitation as the number of required models increases with the number of standard views. To address this, in this paper, we present a prompt-driven universal method for view-agnostic echocardiography analysis. Considering the domain shift between standard views, we first introduce a method called prompt matching, aimed at learning prompts specific to different views by matching prompts and querying input embeddings using a pre-trained vision model. Then, we utilized a pre-trained medical language model to align textual information with pixel data for accurate segmentation. Extensive experiments on three standard views showed that our approach significantly outperforms the state-of-the-art universal methods and achieves comparable or even better performances over the segmentation model trained and tested on same views.

Published
2024

7. Correction: A Novel Remote Follow-Up Tool Based on an Instant Messaging/Social Media App for the Management of Patients With Low Anterior Resection Syndrome: Pilot Prospective Self-Control Study

Author

Liu, Fan, Guo, Peng, Su, Xiangqian, Cui, Ming, Jiang, Jianlong, Wang, Suo, Yu, Zhouman, Zhou, Runhe, and Ye, Yingjiang

Subjects
Information technology, T58.5-58.64, Public aspects of medicine, RA1-1270
Abstract

In “A Novel Remote Follow-Up Tool Based on an Instant Messaging/Social Media App for the Management of Patients With Low Anterior Resection Syndrome: Pilot Prospective Self-Control Study” (JMIR Mhealth Uhealth 2021;9(3):e22647) the authors noted one error. Under “Acknowledgments”, first paragraph, the phrase “Grant No. 2145000042” should been replaced by “Grant No. 2017YF0908203”.

Published
2021
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8. A Novel Remote Follow-Up Tool Based on an Instant Messaging/Social Media App for the Management of Patients With Low Anterior Resection Syndrome: Pilot Prospective Self-Control Study

Author

Liu, Fan, Guo, Peng, Su, Xiangqian, Cui, Ming, Jiang, Jianlong, Wang, Suo, Yu, Zhouman, Zhou, Runhe, and Ye, Yingjiang

Subjects
Information technology, T58.5-58.64, Public aspects of medicine, RA1-1270
Abstract

BackgroundLow anterior resection syndrome (LARS) is a common functional disorder that develops after patients with rectal cancer undergo anal preservation surgery. Common approaches to assess the symptoms of patients with LARS are often complex and time-consuming. Instant messaging/social media has great application potential in LARS follow-up, but has been underdeveloped. ObjectiveThe aim of this study was to compare data between a novel instant messaging/social media follow-up system and a telephone interview in patients with LARS and to analyze the consistency of the instant messaging/social media platform. MethodsPatients with R0 resectable rectal cancer who accepted several defecation function visits via the instant messaging/social media platform and agreed to a telephone interview after the operation using the same questionnaire including subjective questions and LARS scores were included. Differences between the 2 methods were analyzed in pairs and the diagnostic consistency of instant messaging/social media was calculated based on telephone interview results. ResultsIn total, 21 questionnaires from 15 patients were included. The positive rates of defecation dissatisfaction, life restriction, and medication use were 10/21 (48%), 11/21 (52%), and 8/21 (38%) for telephone interview and 10/21 (48%), 13/21 (62%), and 5/21 (24%) for instant messaging/social media, respectively. No statistically significant difference was observed between instant messaging/social media and telephone interview in terms of total LARS score (mean 22.4 [SD 11.9] vs mean 24.7 [SD 10.7], P

Published
2021
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14. Toward extracting the scattering phase shift from integrated correlation functions II: a relativistic lattice field theory model

Author

Guo, Peng

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

In present work, a relativistic relation that connects the difference of interacting and non-interacting integrated two-particle correlation functions in finite volume to infinite volume scattering phase shift through an integral is derived. We show that the difference of integrated finite volume correlation functions converge rapidly to its infinite volume limit as the size of periodic box is increased. The fast convergence of our proposed formalism is illustrated by analytic solutions of a contact interaction model, the perturbation theory calculation, and also Monte Carlo simulation of a complex $\phi^4$ lattice field theory model., Comment: match to PRD accepted version

Published
2024

15. Nuclear mass table in deformed relativistic Hartree-Bogoliubov theory in continuum, II: Even-$Z$ nuclei

Author

DRHBc Mass Table Collaboration, Guo, Peng, Cao, Xiaojie, Chen, Kangmin, Chen, Zhihui, Cheoun, Myung-Ki, Choi, Yong-Beom, Lam, Pak Chung, Deng, Wenmin, Dong, Jianmin, Du, Pengxiang, Du, Xiaokai, Duan, Kangda, Fan, Xiaohua, Gao, Wei, Geng, Lisheng, Ha, Eunja, He, Xiao-Tao, Hu, Jinniu, Huang, Jingke, Huang, Kun, Huang, Yanan, Huang, Zidan, Da Hyung, Kim, Chan, Hoi Yat, Jiang, Xiaofei, Kim, Seonghyun, Kim, Youngman, Lee, Chang-Hwan, Lee, Jenny, Li, Jian, Li, Minglong, Li, Zhipan, Li, Zhengzheng, Lian, Zhanjiang, Liang, Haozhao, Liu, Lang, Lu, Xiao, Liu, Zhi-Rui, Meng, Jie, Meng, Ziyan, Mun, Myeong-Hwan, Niu, Yifei, Niu, Zhongming, Pan, Cong, Peng, Jing, Qu, Xiaoying, Papakonstantinou, Panagiota, Shang, Tianshuai, Shang, Xinle, Shen, Caiwan, Shen, Guofang, Sun, Tingting, Sun, Xiang-Xiang, Wang, Sibo, Wang, Tianyu, Wang, Yiran, Wang, Yuanyuan, Wu, Jiawei, Wu, Liang, Wu, Xinhui, Xia, Xuewei, Xie, Huihui, Yao, Jiangming, Ip, Ip Kwan Yau, Yiu, To Chung, Yu, Jianghan, Yu, Yangyang, Zhang, Kaiyuan, Zhang, Shijie, Zhang, Shuangquan, Zhang, Wei, Zhang, Xiaoyan, Zhang, Yanxin, Zhang, Ying, Zhang, Yingxun, Zhang, Zhenhua, Zhao, Qiang, Zhao, Yingchun, Zheng, Ruyou, Zhou, Chang, Zhou, Shan-Gui, and Zou, Lianjian

Subjects
Nuclear Theory, Astrophysics - Solar and Stellar Astrophysics, Nuclear Experiment
Abstract

The mass table in the deformed relativistic Hartree-Bogoliubov theory in continuum (DRHBc) with the PC-PK1 density functional has been established for even-$Z$ nuclei with $8\le Z\le120$, extended from the previous work for even-even nuclei [Zhang $\it{et.~al.}$ (DRHBc Mass Table Collaboration), At. Data Nucl. Data Tables 144, 101488 (2022)]. The calculated binding energies, two-nucleon and one-neutron separation energies, root-mean-square (rms) radii of neutron, proton, matter, and charge distributions, quadrupole deformations, and neutron and proton Fermi surfaces are tabulated and compared with available experimental data. A total of 4829 even-$Z$ nuclei are predicted to be bound, with an rms deviation of 1.477 MeV from the 1244 mass data. Good agreement with the available experimental odd-even mass differences, $\alpha$ decay energies, and charge radii is also achieved. The description accuracy for nuclear masses and nucleon separation energies as well as the prediction for drip lines is compared with the results obtained from other relativistic and nonrelativistic density functional. The comparison shows that the DRHBc theory with PC-PK1 provides an excellent microscopic description for the masses of even-$Z$ nuclei. The systematics of the nucleon separation energies, odd-even mass differences, pairing energies, two-nucleon gaps, $\alpha$ decay energies, rms radii, quadrupole deformations, potential energy curves, neutron density distributions, and neutron mean-field potentials are discussed., Comment: 394 pages, 17 figures, 2 tables, published in Atomic Data and Nuclear Data Tables, data file in the TXT form is available for download under "Ancillary files"

Published
2024
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16. Extremely strong spin-orbit coupling effect in light element altermagnetic materials

Author

Qu, Shuai, Gao, Ze-Feng, Sun, Hao, Liu, Kai, Guo, Peng-Jie, and Lu, Zhong-Yi

Subjects
Condensed Matter - Materials Science
Abstract

Spin-orbit coupling is a key to realize many novel physical effects in condensed matter physics, but the mechanism to achieve strong spin-orbit coupling effect in light element antiferromagnetic compounds has not been explored. In this work, based on symmetry analysis and the first-principles electronic structure calculations, we demonstrate that strong spin-orbit coupling effect can be realized in light element altermagnetic materials, and propose a mechanism for realizing the corresponding effective spin-orbit coupling. This mechanism reveals the cooperative effect of crystal symmetry, electron occupation, electronegativity, electron correlation, and intrinsic spin-orbit coupling. Our work not only promotes the understanding of light element compounds with strong spin-orbit coupling effect, but also provides an alternative for realizing light element compounds with an effective strong spin-orbit coupling., Comment: 5 pages, 4 figures

Published
2024

17. Optimal Order Execution subject to Reservation Strategies under Execution Risk

Author

Cheng, Xue, Guo, Peng, and Wang, Tai-ho

Subjects
Quantitative Finance - Trading and Market Microstructure
Abstract

The paper addresses the problem of meta order execution from a broker-dealer's point of view in Almgren-Chriss model under order fill uncertainty. A broker-dealer agency is authorized to execute an order of trading on client's behalf. The strategies that the agent is allowed to deploy is subject to a benchmark, referred to as the reservation strategy, regulated by the client. We formulate the broker's problem as a utility maximization problem in which the broker seeks to maximize his utility of excess profit-and-loss at the execution horizon. Optimal strategy in feedback form is obtained in closed form. In the absence of execution risk, the optimal strategies subject to reservation strategies are deterministic. We establish an affine structure among the trading trajectories under optimal strategies subject to general reservation strategies using implementation shortfall and target close orders as basis. We conclude the paper with numerical experiments illustrating the trading trajectories as well as histograms of terminal wealth and utility at investment horizon under optimal strategies versus those under TWAP strategies.

Published
2024

18. Altermagnetic ferroelectric LiFe2F6 and spin-triplet excitonic insulator phase

Author

Guo, Peng-Jie, Gu, Yuhao, Gao, Ze-Feng, and Lu, Zhong-Yi

Subjects
Condensed Matter - Materials Science
Abstract

Altermagnetism is a new magnetic phase with k-dependent spin polarization and may exist in an insulating state with a high N\'eel temperature. This provides a new opportunity to obtain both spin and electric polarization in one material. Here, based on symmetry analysis and the first-principles electronic structures calculations, we predict that LiFe2F6 is a d-wave altermagnetic and charge-ordering-mediated ferroelectric material. Moreover, the LiFe2F6 transforms into a ferrimagnetic and ferroelectric phase with strong magnetoelectric coupling under biaxial compressive strain. Interestingly, the spins of the valence band and the conduction band are opposite in ferrimagnetic LiFe2F6, which facilitates a simultaneous spin-triplet excitonic insulator phase. More importantly, the spin-triplet excitons with spin 1 and -1 can be switched by electric fields in ferrimagnetic LiFe2F6 due to strong magnetoelectric coupling. Due to the abundance of novel physical properties, LiFe2F6 will certainly attract a wide range of theoretical and experimental interest., Comment: 6 pages, 4 figures

Published
2023

26. AI-accelerated Discovery of Altermagnetic Materials

Author

Gao, Ze-Feng, Qu, Shuai, Zeng, Bocheng, Liu, Yang, Wen, Ji-Rong, Sun, Hao, Guo, Peng-Jie, and Lu, Zhong-Yi

Subjects
Condensed Matter - Materials Science, Computer Science - Artificial Intelligence, Physics - Computational Physics
Abstract

Altermagnetism, a new magnetic phase, has been theoretically proposed and experimentally verified to be distinct from ferromagnetism and antiferromagnetism. Although altermagnets have been found to possess many exotic physical properties, the limited availability of known altermagnetic materials hinders the study of such properties. Hence, discovering more types of altermagnetic materials with different properties is crucial for a comprehensive understanding of altermagnetism and thus facilitating new applications in the next generation information technologies, e.g., storage devices and high-sensitivity sensors. Since each altermagnetic material has a unique crystal structure, we propose an automated discovery approach empowered by an AI search engine that employs a pre-trained graph neural network to learn the intrinsic features of the material crystal structure, followed by fine-tuning a classifier with limited positive samples to predict the altermagnetism probability of a given material candidate. Finally, we successfully discovered 50 new altermagnetic materials that cover metals, semiconductors, and insulators confirmed by the first-principles electronic structure calculations. The wide range of electronic structural characteristics reveals that various novel physical properties manifest in these newly discovered altermagnetic materials, e.g., anomalous Hall effect, anomalous Kerr effect, and topological property. Noteworthy, we discovered 4 $i$-wave altermagnetic materials for the first time. Overall, the AI search engine performs much better than human experts and suggests a set of new altermagnetic materials with unique properties, outlining its potential for accelerated discovery of the materials with targeted properties., Comment: 46 pages; 23 figures; 4 tables

Published
2023

27. Extremely large anomalous Hall conductivity and unusual axial diamagnetism in a quasi-1D Dirac material La$_3$MgBi$_5$

Author

Yi, Zhe-Kai, Guo, Peng-Jie, Liang, Hui, Li, Yi-Ran, Su, Ping, Li, Na, Zhou, Ying, Wu, Dan-Dan, Sun, Yan, Yue, Xiao-Yu, Li, Qiu-Ju, Wang, Shou-Guo, Sun, Xue-Feng, and Wang, Yi-Yan

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

Anomalous Hall effect (AHE), one of the most important electronic transport phenomena, generally appears in ferromagnetic materials but is rare in materials without magnetic elements. Here, we present a study of La$_3$MgBi$_5$, whose band structure carries multitype Dirac fermions. Although magnetic elements are absent in La$_3$MgBi$_5$, clear signals of AHE can be observed. In particular, the anomalous Hall conductivity is extremely large, reaching 42,356 $\Omega^{-1}$ cm$^{-1}$ with an anomalous Hall angle of 8.8 %, the largest one that has been observed in the current AHE systems. The AHE is suggested to originate from the combination of skew scattering and Berry curvature. Another unique property discovered in La$_3$MgBi$_5$ is the axial diamagnetism. The diamagnetism is significantly enhanced and dominates the magnetization in the axial directions, which is the result of restricted motion of the Dirac fermion at Fermi level. Our findings not only establish La$_3$MgBi$_5$ as a suitable platform to study AHE and quantum transport, but also indicate the great potential of 315-type Bi-based materials for exploring novel physical properties.

Published
2023
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28. Topological light guiding and trapping via shifted photonic crystal interfaces

Author

Zhan, Zi-Mei, Guo, Peng-Yu, Li, Wei, Wang, Hai-Xiao, and Jiang, Jian-Hua

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Photonic crystals (PCs) are periodic dielectric structures that severed as an excellent platform to manipulate light. A conventional way to guide/trap light via PCs is to introduce a line or point defect by removing or modifying several unit cells. Here we show that the light can be effectively guided and trapped in the glided photonic crystal interfaces (GPCIs). The projected band gap of GPCIs, which depends on the glide parameter, is characterized by a Dirac mass. Interestingly, the GPCIs with zero Dirac mass is a glide-symmetric waveguide featured with excellent transmission performance even in the presence of sharp corners and disorders. Moreover, placing two GPCIs with opposite Dirac mass together results in a photonic bound state due to the Jackiw-Rebbi theory. Our work provides an alternative way towards the design of ultracompact photonic devices such as GPCIs-induced coupled cavity-waveguide system and waveguide splitter.

Published
2023
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29. Vote2Cap-DETR++: Decoupling Localization and Describing for End-to-End 3D Dense Captioning

Author

Chen, Sijin, Zhu, Hongyuan, Li, Mingsheng, Chen, Xin, Guo, Peng, Lei, Yinjie, Yu, Gang, Li, Taihao, and Chen, Tao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

3D dense captioning requires a model to translate its understanding of an input 3D scene into several captions associated with different object regions. Existing methods adopt a sophisticated "detect-then-describe" pipeline, which builds explicit relation modules upon a 3D detector with numerous hand-crafted components. While these methods have achieved initial success, the cascade pipeline tends to accumulate errors because of duplicated and inaccurate box estimations and messy 3D scenes. In this paper, we first propose Vote2Cap-DETR, a simple-yet-effective transformer framework that decouples the decoding process of caption generation and object localization through parallel decoding. Moreover, we argue that object localization and description generation require different levels of scene understanding, which could be challenging for a shared set of queries to capture. To this end, we propose an advanced version, Vote2Cap-DETR++, which decouples the queries into localization and caption queries to capture task-specific features. Additionally, we introduce the iterative spatial refinement strategy to vote queries for faster convergence and better localization performance. We also insert additional spatial information to the caption head for more accurate descriptions. Without bells and whistles, extensive experiments on two commonly used datasets, ScanRefer and Nr3D, demonstrate Vote2Cap-DETR and Vote2Cap-DETR++ surpass conventional "detect-then-describe" methods by a large margin. Codes will be made available at https://github.com/ch3cook-fdu/Vote2Cap-DETR.

Published
2023

30. Gene editing improves endoplasmic reticulum-mitochondrial contacts and unfolded protein response in Friedreichs ataxia iPSC-derived neurons.

Author

Mishra, Priyanka, Sivakumar, Anusha, Johnson, Avalon, Pernaci, Carla, Warden, Anna, El-Hachem, Lilas, Hansen, Emily, Badell-Grau, Rafael, Khare, Veenita, Ramirez, Gabriela, Gillette, Sydney, Solis, Angelyn, Guo, Peng, Coufal, Nicole, and Cherqui, Stephanie

Subjects
Friedreich’s ataxia, calcium homeostasis, endoplasmic reticulum-mitochondrial contacts, gene editing, induced pluripotent stem cells, neuronal apoptosis, neurons, unfolded protein response
Abstract

Friedreich ataxia (FRDA) is a multisystemic, autosomal recessive disorder caused by homozygous GAA expansion mutation in the first intron of frataxin (FXN) gene. FXN is a mitochondrial protein critical for iron-sulfur cluster biosynthesis and deficiency impairs mitochondrial electron transport chain functions and iron homeostasis within the organelle. Currently, there is no effective treatment for FRDA. We have previously demonstrated that single infusion of wild-type hematopoietic stem and progenitor cells (HSPCs) resulted in prevention of neurologic and cardiac complications of FRDA in YG8R mice, and rescue was mediated by FXN transfer from tissue engrafted, HSPC-derived microglia/macrophages to diseased neurons/myocytes. For a future clinical translation, we developed an autologous stem cell transplantation approach using CRISPR/Cas9 for the excision of the GAA repeats in FRDA patients CD34+ HSPCs; this strategy leading to increased FXN expression and improved mitochondrial functions. The aim of the current study is to validate the efficiency and safety of our gene editing approach in a disease-relevant model. We generated a cohort of FRDA patient-derived iPSCs and isogenic lines that were gene edited with our CRISPR/Cas9 approach. iPSC derived FRDA neurons displayed characteristic apoptotic and mitochondrial phenotype of the disease, such as non-homogenous microtubule staining in neurites, increased caspase-3 expression, mitochondrial superoxide levels, mitochondrial fragmentation, and partial degradation of the cristae compared to healthy controls. These defects were fully prevented in the gene edited neurons. RNASeq analysis of FRDA and gene edited neurons demonstrated striking improvement in gene clusters associated with endoplasmic reticulum (ER) stress in the isogenic lines. Gene edited neurons demonstrated improved ER-calcium release, normalization of ER stress response gene, XBP-1, and significantly increased ER-mitochondrial contacts that are critical for functional homeostasis of both organelles, as compared to FRDA neurons. Ultrastructural analysis for these contact sites displayed severe ER structural damage in FRDA neurons, that was undetected in gene edited neurons. Taken together, these results represent a novel finding for disease pathogenesis showing dramatic ER structural damage in FRDA, validate the efficacy profile of our FXN gene editing approach in a disease relevant model, and support our approach as an effective strategy for therapeutic intervention for Friedreichs ataxia.

Published
2024

31. Tunneling time and Faraday/Kerr effects in $\mathcal{PT}$-symmetric systems

Author

Gasparian, Vladimir, Guo, Peng, Pérez-Garrido, Antonio, and Jódar, Esther

Subjects
Condensed Matter - Other Condensed Matter, Physics - Optics, Quantum Physics
Abstract

We review the generalization of tunneling time and anomalous behaviour of Faraday and Kerr rotation angles in parity and time ($\mathcal{P}\mathcal{T}$)-symmetric systems. Similarities of two phenomena are discussed, both exhibit a phase transition-like anomalous behaviour in certain range of model parameters. Anomalous behaviour of tunneling time and Faraday/Kerr angles in $\mathcal{P}\mathcal{T}$-symmetric systems is caused by the motion of poles of scattering amplitudes in energy/frequency complex plane., Comment: Match to accepted version, Invited EPL perspective review. arXiv admin note: text overlap with arXiv:2208.13543

Published
2023

32. Toward extracting scattering phase shift from integrated correlation function

Author

Guo, Peng and Gasparian, Vladimir

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

In present work, a relation that connects the integrated correlation function of a trapped two-particle system to infinite volume particles scattering phase shift is derived. It has the potential to provide an alternative approach for extracting two-particle scattering phase shift from integrated correlation function in lattice simulation at small Euclidean time region. Both (i) perturbation calculation of 1+1 dimensional lattice Euclidean field theory model of fermions interacting with a contact interaction and (ii) Monte Carlo simulation of a 1D exactly solvable quantum mechanics model are carried out to test the proposed relation. In contrast to conventional two-step approach of extracting energy levels from temporal correlation function in lattice simulation at large Euclidean time first and then applying L\"uscher formula to convert energy levels into scattering phase shifts, we show that the difference of integrated correlation functions between interacting and noninteracting trapped systems converges rapidly to infinite volume limit that is given in terms of scattering phase shifts at small Euclidean time region., Comment: match to published version in PRD

Published
2023

33. New Exact Solutions Of General Degasperis-Procesi Equations In Plasmas

Author

Yang, Bingnuo, Wu, Weinan, Yu, Hongfeng, and Guo, Peng

Subjects
Nonlinear Sciences - Pattern Formation and Solitons, Physics - Plasma Physics
Abstract

In this paper, a new exact solution of general Degasperis-Procesi (gDP) equation, a nonlinear equation in plasma, will be constructed by using PPA method, extended trigonometry and extended hyperbolic method. gDP equation is a good mathematical model for studying nonlinear shallow water wave propagation with small amplitude and long wavelength. This study will enrich the theory and connotation of plasma research by studying such nonlinear equation in plasma., Comment: 23 pages,6 figures

Published
2023

38. Overview

Author

Wan, Alex, Guo, Peng, Guo, Peng, Editor-in-Chief, and Wan, Alex

Published
2024
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41. Nanjing Overseas Wood Co., Ltd. v. Trans-Pacific Trading Ltd.

Author

Chen, Xiaojun, Guo, Peng, Guo, Peng, Editor-in-Chief, Zuo, Haicong, Editorial Board Member, Zhang, Shu, Editorial Board Member, Wang, Geng, Assistant Editor, Zhang, Chaolin, Assistant Editor, Li, Jia, Associate Editor, Yang, Yueyi, Associate Editor, Fang, Xiaoqing, Associate Editor, and LI, Xuetong, Associate Editor

Published
2024
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43. P.H. 'PODLASIAK' Andrzej Cylwik v. Yiwu Entuo Import and Export Firm

Author

Wan, Alex, Guo, Peng, Guo, Peng, Editor-in-Chief, Zuo, Haicong, Editorial Board Member, Zhang, Shu, Editorial Board Member, Wang, Geng, Assistant Editor, Zhang, Chaolin, Assistant Editor, Li, Jia, Associate Editor, Yang, Yueyi, Associate Editor, Fang, Xiaoqing, Associate Editor, and LI, Xuetong, Associate Editor

Published
2024
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44. m.c.or-shy Ltd. Company v. Hangzhou Fuming Refrigeration Technology Co., Ltd. and Hangzhou Silk Garment Import and Export Co., Ltd.

Author

Cui, Kaiwei, Guo, Peng, Guo, Peng, Editor-in-Chief, Zuo, Haicong, Editorial Board Member, Zhang, Shu, Editorial Board Member, Wang, Geng, Assistant Editor, Zhang, Chaolin, Assistant Editor, Li, Jia, Associate Editor, Yang, Yueyi, Associate Editor, Fang, Xiaoqing, Associate Editor, and LI, Xuetong, Associate Editor

Published
2024
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46. A/S Harald Nyborg Co., Ltd. v. Wuxi Anjiu Automatic Vehicle Co., Ltd.

Author

Cui, Kaiwei, Guo, Peng, Guo, Peng, Editor-in-Chief, Zuo, Haicong, Editorial Board Member, Zhang, Shu, Editorial Board Member, Wang, Geng, Assistant Editor, Zhang, Chaolin, Assistant Editor, Li, Jia, Associate Editor, Yang, Yueyi, Associate Editor, Fang, Xiaoqing, Associate Editor, and LI, Xuetong, Associate Editor

Published
2024
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47. Hangzhou Thousand-Island Lake Tiantu Needlework Co., Ltd. v. Huatai Group of America, Inc. and Wenzhou Gongmei International Trade Co., Ltd.

Author

Zhang, Chaolin, Fan, Junkai, Guo, Peng, Guo, Peng, Editor-in-Chief, Zuo, Haicong, Editorial Board Member, Zhang, Shu, Editorial Board Member, Wang, Geng, Assistant Editor, Zhang, Chaolin, Assistant Editor, Li, Jia, Associate Editor, Yang, Yueyi, Associate Editor, Fang, Xiaoqing, Associate Editor, and LI, Xuetong, Associate Editor

Published
2024
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48. A Company v. B Company

Author

Chen, Xiaojun, Guo, Peng, Guo, Peng, Editor-in-Chief, Zuo, Haicong, Editorial Board Member, Zhang, Shu, Editorial Board Member, Wang, Geng, Assistant Editor, Zhang, Chaolin, Assistant Editor, Li, Jia, Associate Editor, Yang, Yueyi, Associate Editor, Fang, Xiaoqing, Associate Editor, and LI, Xuetong, Associate Editor

Published
2024
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49. Shanghai Jiamupu Industry Co., Ltd. v. Moraglis S.A.

Author

Chen, Xiaojun, Guo, Peng, Guo, Peng, Editor-in-Chief, Zuo, Haicong, Editorial Board Member, Zhang, Shu, Editorial Board Member, Wang, Geng, Assistant Editor, Zhang, Chaolin, Assistant Editor, Li, Jia, Associate Editor, Yang, Yueyi, Associate Editor, Fang, Xiaoqing, Associate Editor, and LI, Xuetong, Associate Editor

Published
2024
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50. GINO Co., Ltd. v. Beijing Ji Nuo Si Trading Co., Ltd.

Author

Chen, Xiaojun, Guo, Peng, Guo, Peng, Editor-in-Chief, Zuo, Haicong, Editorial Board Member, Zhang, Shu, Editorial Board Member, Wang, Geng, Assistant Editor, Zhang, Chaolin, Assistant Editor, Li, Jia, Associate Editor, Yang, Yueyi, Associate Editor, Fang, Xiaoqing, Associate Editor, and LI, Xuetong, Associate Editor

Published
2024
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