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1. Training Data Attribution: Was Your Model Secretly Trained On Data Created By Mine?

Author

Zhang, Likun, Wu, Hao, Zhang, Lingcui, Xu, Fengyuan, Cao, Jin, Li, Fenghua, and Niu, Ben

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The emergence of text-to-image models has recently sparked significant interest, but the attendant is a looming shadow of potential infringement by violating the user terms. Specifically, an adversary may exploit data created by a commercial model to train their own without proper authorization. To address such risk, it is crucial to investigate the attribution of a suspicious model's training data by determining whether its training data originates, wholly or partially, from a specific source model. To trace the generated data, existing methods require applying extra watermarks during either the training or inference phases of the source model. However, these methods are impractical for pre-trained models that have been released, especially when model owners lack security expertise. To tackle this challenge, we propose an injection-free training data attribution method for text-to-image models. It can identify whether a suspicious model's training data stems from a source model, without additional modifications on the source model. The crux of our method lies in the inherent memorization characteristic of text-to-image models. Our core insight is that the memorization of the training dataset is passed down through the data generated by the source model to the model trained on that data, making the source model and the infringing model exhibit consistent behaviors on specific samples. Therefore, our approach involves developing algorithms to uncover these distinct samples and using them as inherent watermarks to verify if a suspicious model originates from the source model. Our experiments demonstrate that our method achieves an accuracy of over 80\% in identifying the source of a suspicious model's training data, without interfering the original training or generation process of the source model.

Published
2024

2. Bypassing DARCY Defense: Indistinguishable Universal Adversarial Triggers

Author

Peng, Zuquan, He, Yuanyuan, Ni, Jianbing, and Niu, Ben

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence, I.2.7
Abstract

Neural networks (NN) classification models for Natural Language Processing (NLP) are vulnerable to the Universal Adversarial Triggers (UAT) attack that triggers a model to produce a specific prediction for any input. DARCY borrows the "honeypot" concept to bait multiple trapdoors, effectively detecting the adversarial examples generated by UAT. Unfortunately, we find a new UAT generation method, called IndisUAT, which produces triggers (i.e., tokens) and uses them to craft adversarial examples whose feature distribution is indistinguishable from that of the benign examples in a randomly-chosen category at the detection layer of DARCY. The produced adversarial examples incur the maximal loss of predicting results in the DARCY-protected models. Meanwhile, the produced triggers are effective in black-box models for text generation, text inference, and reading comprehension. Finally, the evaluation results under NN models for NLP tasks indicate that the IndisUAT method can effectively circumvent DARCY and penetrate other defenses. For example, IndisUAT can reduce the true positive rate of DARCY's detection by at least 40.8% and 90.6%, and drop the accuracy by at least 33.3% and 51.6% in the RNN and CNN models, respectively. IndisUAT reduces the accuracy of the BERT's adversarial defense model by at least 34.0%, and makes the GPT-2 language model spew racist outputs even when conditioned on non-racial context., Comment: 13 pages, 5 figures

Published
2024

3. Exploring User Acceptance Of Portable Intelligent Personal Assistants: A Hybrid Approach Using PLS-SEM And fsQCA

Author

Mvondo, Gustave Florentin Nkoulou and Niu, Ben

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Artificial Intelligence, HCC
Abstract

This research explores the factors driving user acceptance of Rabbit R1, a newly developed portable intelligent personal assistant (PIPA) that aims to redefine user interaction and control. The study extends the technology acceptance model (TAM) by incorporating artificial intelligence-specific factors (conversational intelligence, task intelligence, and perceived naturalness), user interface design factors (simplicity in information design and visual aesthetics), and user acceptance and loyalty. Using a purposive sampling method, we gathered data from 824 users in the US and analyzed the sample through partial least squares structural equation modeling (PLS-SEM) and fuzzy set qualitative comparative analysis (fsQCA). The findings reveal that all hypothesized relationships, including both direct and indirect effects, are supported. Additionally, fsQCA supports the PLS-SEM findings and identifies three configurations leading to high and low user acceptance. This research enriches the literature and provides valuable insights for system designers and marketers of PIPAs, guiding strategic decisions to foster widespread adoption and long-term engagement., Comment: 36

Published
2024

4. Factors Influencing User Willingness To Use SORA

Author

Mvondo, Gustave Florentin Nkoulou and Niu, Ben

Subjects
Computer Science - Artificial Intelligence, Computer Science - Human-Computer Interaction, 62P225
Abstract

Sora promises to redefine the way visual content is created. Despite its numerous forecasted benefits, the drivers of user willingness to use the text-to-video (T2V) model are unknown. This study extends the extended unified theory of acceptance and use of technology (UTAUT2) with perceived realism and novelty value. Using a purposive sampling method, we collected data from 940 respondents in the US and analyzed the sample using covariance-based structural equation modeling and fuzzy set qualitative comparative analysis (fsQCA). The findings reveal that all hypothesized relationships are supported, with perceived realism emerging as the most influential driver, followed by novelty value. Moreover, fsQCA identifies five configurations leading to high and low willingness to use, and the model demonstrates high predictive validity, contributing to theory advancement. Our study provides valuable insights for developers and marketers, offering guidance for strategic decisions to promote the widespread adoption of T2V models., Comment: 27 pages, 3 figures, 7 tables, 2 authors; first author* corresponding author

Published
2024

7. Equivariant Hopf bifurcation arising in circular-distributed predator-prey interaction with taxis

Author

Chen, Yaqi, Zeng, Xianyi, and Niu, Ben

Subjects
Mathematics - Dynamical Systems
Abstract

In this paper, we study the Rosenzweig-MacArthur predator-prey model with predator-taxis and time delay defined on a disk. Theoretically, we studied the equivariant Hopf bifurcation around the positive constant steady-state solution. Standing and rotating waves have been investigated through the theory of isotropic subgroups and Lyapunov-Schmidt reduction. The existence conditions, the formula for the periodic direction and the periodic variation of bifurcation periodic solutions are obtained. Numerically, we select appropriate parameters and conduct numerical simulations to illustrate the theoretical results and reveal quite complicated dynamics on the disk. Different types of rotating and standing waves, as well as more complex spatiotemporal patterns with random initial values, are new dynamic phenomena that do not occur in one-dimensional intervals.

Published
2024

8. Dynamics of a diffusive predator-prey system with fear effect in advective environments

Author

Duan, Daifeng, Niu, Ben, and Yuan, Yuan

Subjects
Mathematics - Dynamical Systems
Abstract

We explore a diffusive predator-prey system that incorporates the fear effect in advective environments. Firstly, we analyze the eigenvalue problem and the adjoint operator, considering Constant-Flux and Dirichlet (CF/D) boundary conditions, as well as Free-Flow (FF) boundary conditions. Our investigation focuses on determining the direction and stability of spatial Hopf bifurcation, with the generation delay $\tau$ serving as the bifurcation parameter. Additionally, we examine the influence of both linear and Holling-II functional responses on the dynamics of the model. Through these analyses, we aim to gain a better understanding of the intricate relationship between advection, predation, and prey response in this system.

Published
2023

9. Spatiotemporal Patterns Induced by Turing-Hopf Interaction and Symmetry on a Disk

Author

Chen, Yaqi, Zeng, Xianyi, and Niu, Ben

Subjects
Mathematics - Dynamical Systems
Abstract

Turing bifurcation and Hopf bifurcation are two important kinds of transitions giving birth to inhomogeneous solutions, in spatial or temporal ways. On a disk, these two bifurcations may lead to equivariant Turing-Hopf bifurcations. In this paper, normal forms for three kinds of Turing-Hopf bifurcations are given and the breathing, standing wave-like, and rotating wave-like patterns are found in numerical examples.

Published
2023

10. Predicting Consultation Success in Online Health Platforms Using Dynamic Knowledge Networks and Multimodal Data Fusion

Author

Geng, Shuang, Zhang, Wenli, Xie, Jiaheng, Liang, Gemin, Niu, Ben, and Ram, Sudha

Subjects
Computer Science - Machine Learning, K.5, H.4.m
Abstract

Online healthcare consultation in virtual health is an emerging industry marked by innovation and fierce competition. Accurate and timely prediction of healthcare consultation success can proactively help online platforms address patient concerns and improve retention rates. However, predicting online consultation success is challenging due to the partial role of virtual consultations in patients' overall healthcare journey and the disconnect between online and in-person healthcare IT systems. Patient data in online consultations is often sparse and incomplete, presenting significant technical challenges and a research gap. To address these issues, we propose the Dynamic Knowledge Network and Multimodal Data Fusion (DyKoNeM) framework, which enhances the predictive power of online healthcare consultations. Our work has important implications for new business models where specific and detailed online communication processes are stored in the IT database, and at the same time, latent information with predictive power is embedded in the network formed by stakeholders' digital traces. It can be extended to diverse industries and domains, where the virtual or hybrid model (e.g., integration of online and offline services) is emerging as a prevailing trend.

Published
2023

13. Equivariant Hopf Bifurcation in a Class of Partial Functional Differential Equations on a Circular Domain

Author

Chen, Yaqi, Zeng, Xianyi, and Niu, Ben

Subjects
Mathematics - Dynamical Systems
Abstract

Circular domains frequently appear in the fields of ecology, biology and chemistry. In this paper, we investigate the equivariant Hopf bifurcation of partial functional differential equations with Neumann boundary condition on a two-dimensional disk. The properties of these bifurcations around equilibriums are analyzed rigorously by studying the equivariant normal forms. Two reaction-diffusion systems with discrete time delays are selected as numerical examples to verify the theoretical results, in which spatially inhomogeneous periodic solutions including standing waves and rotating waves, and spatially homogeneous periodic solutions are found near the bifurcation points.

Published
2023

14. Assessment method on protection effectiveness of differential privacy algorithms based on fuzzy influence diagram

Author

TIAN Yuechi, LI Fenghua, ZHOU Zejun, SUN Zhe, GUO Shoukun, and NIU Ben

Subjects
privacy protection effectiveness, comprehensive assessment, fuzzy influence diagram, differential privacy, Telecommunication, TK5101-6720
Abstract

In response to the challenge of comprehensively assessing privacy-preserving algorithms, an assessment method on protection effectiveness of differential privacy algorithms based on fuzzy influence diagram was proposed, achieving a multi-perspective assessment of differential privacy algorithms with a comprehensive score and level as assessment results. Starting from five aspects—algorithm security, feasibility, privacy bias, data utility, and user experience, an indicator system was established. Fuzzy theory was employed to handle uncertainties, while the diagram was used to propagate interactions between factors. The assessment score and level were obtained by calculating the fuzzy influence diagram, and then used as feedback for parameter adjustment to achieve iterative assessment. Formalization link was proposed to solve the problem of completely opposite algorithms with idential evaluation results. Comparative experiments on electricity-carbon analysis model demonstrate the proposed method can assess the protection effectiveness of differential privacy algorithms effectively. Ablation experiments further show that the formalization link plays a key role in the discrimination of the algorithm.

Published
2024
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15. Effects of Mannosylerythritol Lipids on the Quality of Frozen Cooked Noodles

Author

YANG Yanxiao, NIU Yongwu, NIU Ben, LIN Ning, LOU Haiwei, ZHAO Renyong

Subjects
mannosylerythritol lipids, frozen cooked noodles, moisture, texture, pasting properties, protein secondary structure, Food processing and manufacture, TP368-456
Abstract

In order to improve the phenomenon that frozen cooked noodles are susceptible to the formation of ice crystals and quality deterioration during storage, the effects of mannosylerythritol lipids (MELs) versus sucrose ester (SE) on the proportion of freezable water, water distribution, quality characteristics, gelatinization characteristics of wheat flour and the secondary structures of proteins in frozen cooked noodles were investigated. The results showed that the addition of 0.30%–1.10% (m/m) MELs could promote the conversion of free water to bound water in frozen cooked noodles, reduce the proportion of freezable water, and increase the binding of water to macromolecules such as protein and starch. Compared with the blank and SE groups, the quality of frozen cooked noodles made with 0.70% MELs was better, and the hardness was (4 335.317 ± 48.047) g, which was 25.36% higher than that of the blank group. The tensile force and tensile distance at break were (11.22 ± 0.15) g and (69.09 ± 1.34) mm, respectively. The water absorption rate increased significantly, and the cooking loss rate was the smallest, suggesting MELs to be more effective in improving the cooking quality of noodles than SE. At the same time, MELs could effectively delay the retrogradation rate of wheat flour starch, increase the proportions of the secondary structure fractions β-sheet and α-helix, and strengthen the gluten network structure.

Published
2024
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16. Research progress in damping alloys

Author

ZHAO Tailin, NIU Ben, WANG Qing, and DONG Chuang

Subjects
damping alloy, defect, high-entropy alloy, multi-damping mechanism, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Damping alloys can dissipate vibration energy into thermal energy through defective motion with high mechanical properties and functional characteristics, which have a great significance in the development and research of aerospace and military fields. There are differences in microstucture between different alloy systems. The types of defects that play a dominant role in damping are different, and the properties of structureal defect (type, density, and movability) are the key factors affecting the damping performance of alloys. The types and characteristics of damping source for different damping alloys systems were summarized from the perspective of defects (plane defects, line defects, and point defects). The relationship between damping capacity, mechanical properties, and functional properties (corrosion resistance, casting performance, etc.) was reviewed, the development status of various damping alloys was summarized, and then the development laws and differences of damping alloys were concluded. Finally, the research direction of damping alloys is prospected. The single type of damping source will seriously limit the improvement of the material damping capacity. While the design concepts of composite materials and high-entropy alloys allow for the coexistence of multiple damping sources, which produces the coupling effect of multiple damping mechanisms that can realize the two-dimensional expansion of damping capacity, and improve mechanical properties and functionalities. The design concepts will play a significant guide to enhance comprehensive performance of damping alloys.

Published
2024
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17. Research category and future development trend of data elements circulation and security

Author

LI Fenghua, LI Hui, NIU Ben, and QIU Weidong

Subjects
data element circulation, data rights determination, secure data computation, privacy computing, Telecommunication, TK5101-6720
Abstract

Towards the trend of evolution from controlled data sharing in the information technology era to ubiquitous circulation of data elements in the data technology era, the difference between data sharing and data element circulation was analyzed, what kind of data could become a data element was explained, and six attributes that data must have to become a data element were put forward. The data element circulation model and its primary links were defined, and the research scope of data element circulation was clarified. Furthermore, the relevant concepts of data element circulation were combed through, the important key technologies were analyzed, and the key technologies that need to be solved in the future were outlooked.

Published
2024
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18. Magnetic phase transition induced ferroelectric polarization in BaFeF4 with room temperature weak ferromagnetism

Author

Zhang, Fan, Tang, Yongsen, Li, Ranran, Liu, Tianyu, Xu, Dingshi, Chen, Yinzhu, Niu, Ben, Yuan, Shijun, Qin, Sai, Yan, Zhibo, Du, Jun, Wu, Di, Li, Qi, Dong, Shuai, and Xu, Qingyu

Subjects
Condensed Matter - Materials Science
Abstract

BaMF4 (M=Fe, Co, Ni and Mn) family are typical multiferroic materials, having antiferromagnetism at around liquid nitrogen temperature. In this work, polycrystalline BaFeF4 has been prepared by solid state reaction. The slight deficiency of Fe leads to the coexistence of valence states of +2 and +3, facilitating the electrons to hop between the neighboring Fe2+ and Fe3+ ions through the middle F- ion, leading to the strong double exchange interaction with weak ferromagnetism above room temperature. A bifurcation at about 170 K between the zero-field-cooled and field-cooled temperature dependent magnetization curves indicates the onset of 2-dimensional antiferromagnetism, which is completed at about 125 K with the sudden drop of magnetization. Despite the fact of type-I multiferroic, its magnetoelectricity can be evidenced by the pyroelectric current, which shows a peak starting at about 170 K and finishing at about 125 K. The saturated ferroelectric polarization change of around 34 {\mu}C/m2 is observed, which is switchable by the reversed poling electric field and decreases to about 30 {\mu}C/m2 under a magnetic field of 90 kOe. This magnetoelectricity can be qualitatively reproduced by first-principles calculations. Our results represent substantial progress to search for high-temperature multiferroics in ferroelectric fluorides., Comment: 18 pages, 5 figures

Published
2022
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27. Analysis of Astringent Components and Differential Gene Expression of Related Key Enzymes in Different Tissues of Fresh Lotus Seeds

Author

YANG Yin’ai, HAN Yanchao, LIU Ruiling, CHEN Huizhi, NIU Ben, GAO Haiyan, CHEN Hangjun

Subjects
lotus seed coat, lotus seed pulp, lotus seed plumule, astringency, Food processing and manufacture, TP368-456
Abstract

This study was performed to explore the differences in the composition of astringent substances in different tissues of fresh lotus seeds and the expression of key enzyme genes involved in the synthesis of astringent compounds. The contents of soluble tannins, insoluble tannins and proanthocyanidins in lotus seed coat, lotus seed pulp without coat and lotus seed plumule were determined. Meanwhile, the activity and gene expression of key enzymes in the tannin synthesis pathway were detected. Sensory evaluation and electronic tongue analysis were performed on lotus seed samples. The data obtained was analyzed by orthogonal partial least squares discriminant analysis (OPLS-DA) and correlation analysis. Results showed that the major substance contributing to the astringency of lotus seeds was soluble tannins. Tannins had a positive effect on its excellent flavor at the waxy ripeness stage. Anthocyanin reductase was a key enzyme affecting the astringency intensity of lotus seeds. SnANR9 played a role in regulating the astringency of different tissues of lotus seeds.

Published
2024
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30. Changes in Volatile Flavor Substances during Postharvest Infection of Fresh Ginger with Fusarium graminearum

Author

MENG Xiuling, NIU Ben, GAO Haiyan, LIU Ruiling, CHEN Huizhi, WU Weijie, CHEN Hangjun

Subjects
ginger, fusarium graminearum, volatile flavor substance, gas chromatography-mass spectrometry, Food processing and manufacture, TP368-456
Abstract

In this study, Fusarium graminearum was identified as the pathogen causing the decay of ginger from Jiangshan, Zhejiang Province during postharvest storage by tissue separation, morphological characterization, ribosomal DNA internal transcribed spacer (rDNA-ITS) sequence analysis and phylogenetic tree construction. By using solid phase microextraction (SPME) and gas chromatography-mass spectrometry (GC-MS), the changes of volatile flavor in fresh ginger during infection with F. graminearum postharvest were studied through the determination of volatile flavor compounds in healthy tissues, the junction between healthy and diseased tissues, and diseased tissues of fresh ginger. Principal component analysis (PCA) was used to evaluate the flavor quality of fresh ginger during postharvest disease development. The results showed that a total of 58 volatile flavor substances were detected in ginger, of which 40 substances were detected in healthy tissues, 35 substances in the junction of diseased and healthy tissues, and 39 substances in diseased tissues. These volatile flavor substances mainly included olefins, alcohols, esters, aldehydes, and ketones. Olefin compounds were the major components contributing to fresh ginger flavor, accounting for more than 80% of all flavor compounds. During disease development, the content of olefin flavor compounds increased significantly (P < 0.05), and the sesquiterpene components zingiberene and β-sesquiterpene were detected in different parts of fresh ginger and their contents continued to increase, which could be used as the indexes for determining whether or not fresh ginger is infected with F. graminearum after harvest. This may be due to the activation of the resistance mechanism of pathogen infected fresh ginger and consequent release of sesquiterpene components in large quantities.

Published
2023
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40. Antifungal Activity and Mechanism of Perillaldehyde against Penicillium citrinum, a Major Fungal Pathogen of Myrica rubra

Author

LI Ruiyi, WU Weijie, FANG Xiangjun, CHEN Hangjun, HAN Yanchao, NIU Ben, CHEN Huizhi, GAO Haiyan

Subjects
perillaldehyde, penicillium citrinum, antifungal effect, antifungal mechanism, Food processing and manufacture, TP368-456
Abstract

Perillaldehyde is a green and safe natural antibacterial substance extracted from perilla leaves, which is also used as a food additive in food production. In this study, the inhibitory effect of perillaldehyde on Penicillium citrinum, a major pathogen of Chinese bayberry (Myrica rubra), was investigated by minimum inhibitory concentration (MIC), spore germination rate and mycelial growth inhibition assays, and the underlying mechanism was elucidated by studying the mycelial morphology and ultrastructure, cell membrane damage, membrane lipid peroxidation and changes in functional groups. The results showed that the MIC of perillaldehyde on P. citrinum was 120 μL/L. Mycelial growth was completely inhibited by treatment with 120 μL/L perillaldehyde, and the relative conductivity and malondialdehyde (MDA) content increased. Compared with the untreated group, ergosterol, total lipid and chitin contents and mitochondrial adenosine triphosphatase (ATPase) activity decreased by 80.00%, 81.25%, 64.97% and 87.40% in P. citrinum treated with 90 μL/L perillaldehyde. The treatment with perillaldehyde damaged cell membrane permeability and affected the normal physiological function of the cell membrane. By scanning electron microscopy (SEM) and transmission electron microscopy (TEM), it was found showed that the broom-like conidial head of P. citrinum disappeared after perillaldehyde treatment, and the mycelia appeared to be broken and ablated. Moreover, the cell membrane was broken, intracellular contents leaked out, and the cells became shriveled. In addition, the amounts of leakage of soluble protein, soluble sugar and nucleic acid from P. citrinum treated with 120 μL/L perillaldehyde for 5 h increased by 71.20%, 210.93% and 117.31% compared with those before the treatment, which verified cell membrane damage. By using Fourier transform infrared (FTIR) spectroscopy, it was found that the contents of functional groups such as hydroxyl, methyl, aromatic carbon skeleton and benzene ring carbon skeleton in perillaldehyde treated P. citrinum decreased, and internal substances were gradually consumed. In summary, perillaldehyde showed a good antifungal activity on P. citrinum by destroying cell membrane structure, changing membrane permeability, interfering with energy metabolism and destroying protein and genetic material. Perillaldehyde has good research and development prospects as a natural preservative.

Published
2023
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41. Single Image Super-Resolution via a Holistic Attention Network

Author

Niu, Ben, Wen, Weilei, Ren, Wenqi, Zhang, Xiangde, Yang, Lianping, Wang, Shuzhen, Zhang, Kaihao, Cao, Xiaochun, and Shen, Haifeng

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

Informative features play a crucial role in the single image super-resolution task. Channel attention has been demonstrated to be effective for preserving information-rich features in each layer. However, channel attention treats each convolution layer as a separate process that misses the correlation among different layers. To address this problem, we propose a new holistic attention network (HAN), which consists of a layer attention module (LAM) and a channel-spatial attention module (CSAM), to model the holistic interdependencies among layers, channels, and positions. Specifically, the proposed LAM adaptively emphasizes hierarchical features by considering correlations among layers. Meanwhile, CSAM learns the confidence at all the positions of each channel to selectively capture more informative features. Extensive experiments demonstrate that the proposed HAN performs favorably against the state-of-the-art single image super-resolution approaches., Comment: 16 pages, 6 figures, IEEE International Conference on Computer Vision

Published
2020

42. Global dynamics in a predator-prey model with cooperative hunting and Allee effect and bifurcation induced by diffusion and delays

Author

Du, Yanfei, Niu, Ben, and Wei, Junjie

Subjects
Mathematics - Dynamical Systems
Abstract

We consider the local bifurcation and global dynamics of a predator-prey model with cooperative hunting and Allee effect. For the model with weak cooperation, we prove the existence of limit cycle, heteroclinic cycle at a threshold of conversion rate $p=p^{\#}$. When $p>p^{\#}$, both species go extinct, and when $p

Published
2020

43. Current-induced CrI3 surface spin-flop transition probed by proximity magnetoresistance in Pt

Author

Su, Tang, Lohmann, Mark, Li, Junxue, Xu, Yadong, Niu, Ben, Alghamdi, Mohammed, Zhou, Haidong, Cui, Yongtao, Cheng, Ran, Taniguchi, Takashi, Watanabe, Kenji, and Shi, Jing

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

By exploiting proximity coupling, we probe the spin state of the surface layers of CrI3, a van der Waals magnetic semiconductor, by measuring the induced magnetoresistance (MR) of Pt in Pt/CrI3 nano-devices. We fabricate the devices with clean and stable interfaces by placing freshly exfoliated CrI3 flake atop pre-patterned thin Pt strip and encapsulating the Pt/CrI3 heterostructure with hexagonal boron nitride (hBN) in a protected environment. In devices consisting of a wide range of CrI3 thicknesses (30 to 150 nm), we observe that an abrupt upward jump in Pt MR emerge at a 2 T magnetic field applied perpendicularly to the layers when the current density exceeds 2.5x10^10 A/m2, followed by a gradual decrease over a range of 5 T. These distinct MR features suggest a spin-flop transition which reveals strong antiferromagnetic interlayer coupling in the surface layers of CrI3. We study the current dependence by holding the Pt/CrI3 sample at approximately the same temperature to exclude the joule heating effect, and find that the MR jump increases with the current density, indicating a spin current origin. This spin current effect provides a new route to control spin configurations in insulating antiferromagnets, which is potentially useful for spintronic applications.

Published
2020

44. Input Perturbation: A New Paradigm between Central and Local Differential Privacy

Author

Kang, Yilin, Liu, Yong, Niu, Ben, Tong, Xinyi, Zhang, Likun, and Wang, Weiping

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

Traditionally, there are two models on differential privacy: the central model and the local model. The central model focuses on the machine learning model and the local model focuses on the training data. In this paper, we study the \textit{input perturbation} method in differentially private empirical risk minimization (DP-ERM), preserving privacy of the central model. By adding noise to the original training data and training with the `perturbed data', we achieve ($\epsilon$,$\delta$)-differential privacy on the final model, along with some kind of privacy on the original data. We observe that there is an interesting connection between the local model and the central model: the perturbation on the original data causes the perturbation on the gradient, and finally the model parameters. This observation means that our method builds a bridge between local and central model, protecting the data, the gradient and the model simultaneously, which is more superior than previous central methods. Detailed theoretical analysis and experiments show that our method achieves almost the same (or even better) performance as some of the best previous central methods with more protections on privacy, which is an attractive result. Moreover, we extend our method to a more general case: the loss function satisfies the Polyak-Lojasiewicz condition, which is more general than strong convexity, the constraint on the loss function in most previous work.

Published
2020

50. Coexistence of Magnetic Orders in Two-Dimensional Magnet CrI$_3$

Author

Niu, Ben, Su, Tang, Francisco, Brian A., Ghosh, Subhajit, Kargar, Fariborz, Huang, Xiong, Lohmann, Mark, Li, Junxue, Xu, Yadong, Taniguchi, Takashi, Watanabe, Kenji, Wu, Di, Balandin, Alexander, Shi, Jing, and Cui, Yong-Tao

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The magnetic properties in two-dimensional van der Waals materials depend sensitively on structure. CrI3, as an example, has been recently demonstrated to exhibit distinct magnetic properties depending on the layer thickness and stacking order. Bulk CrI3 is ferromagnetic (FM) with a Curie temperature of 61 K and a rhombohedral layer stacking, while few-layer CrI3 has a layered antiferromagnetic (AFM) phase with a lower ordering temperature of 45 K and a monoclinic stacking. In this work, we use cryogenic magnetic force microscopy to investigate CrI3 flakes in the intermediate thickness range (25 - 200 nm) and find that the two types of magnetic orders hence the stacking orders can coexist in the same flake, with a layer of ~13 nm at each surface being in the layered AFM phase similar to few-layer CrI3 and the rest in the bulk FM phase. The switching of the bulk moment proceeds through a remnant state with nearly compensated magnetic moment along the c-axis, indicating formation of c-axis domains allowed by a weak interlayer coupling strength in the rhombohedral phase. Our results provide a comprehensive picture on the magnetism in CrI3 and point to the possibility of engineering magnetic heterostructures within the same material.

Published
2019
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