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151. Disorder-broadened phase boundary with enhanced amorphous superconductivity in pressurized In2Te5

Author

Zhao, Yi, Ying, Tianping, Zhao, Lingxiao, Wu, Juefei, Pei, Cuiying, Chen, Jing, Deng, Jun, Zhang, Qinghua, Gu, Lin, Wang, Qi, Cao, Weizheng, Li, Changhua, Zhu, Shihao, Zhang, Mingxin, Yu, Na, Zhang, Lili, Chen, Yulin, Chen, Chui-Zhen, Yu, Tongxu, and Qi, Yanpeng

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

As an empirical tool in materials science and engineering, the iconic phase diagram owes its robustness and practicality to the topological characteristics rooted in the celebrated Gibbs phase law (F = C - P + 2). When crossing the phase diagram boundary, the structure transition occurs abruptly, bringing about an instantaneous change in physical properties and limited controllability on the boundaries (F = 1). Here, we expand the sharp phase boundary to an amorphous transition region (F = 2) by partially disrupting the long-range translational symmetry, leading to a sequential crystalline-amorphous-crystalline (CAC) transition in a pressurized In2Te5 single crystal. Through detailed in-situ synchrotron diffraction, we elucidate that the phase transition stems from the rotation of immobile blocks [In2Te2]2+, linked by hinge-like [Te3]2- trimers. Remarkably, within the amorphous region, the amorphous phase demonstrates a notable 25 % increase of the superconducting transition temperature (Tc), while the carrier concentration remains relatively constant. Furthermore, we propose a theoretical framework revealing that the unconventional boost in amorphous superconductivity might be attributed to an intensified electron correlation, triggered by a disorder-augmented multifractal behavior. These findings underscore the potential of disorder and prompt further exploration of unforeseen phenomena on the phase boundaries., Comment: 14 pages, 4 figures, Accepted for publication in Advanced Materials

Published
2024
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152. Generalized Einstein-Podolsky-Rosen Steering Paradox

Author

Liu, Zhi-Jie, Fan, Xing-Yan, Zhou, Jie, Xie, Mi, and Chen, Jing-Ling

Subjects
Quantum Physics
Abstract

Quantum paradoxes are essential means to reveal the incompatibility between quantum and classical theories, among which the Einstein-Podolsky-Rosen (EPR) steering paradox offers a sharper criterion for the contradiction between local-hidden-state model and quantum mechanics than the usual inequality-based method. In this work, we present a generalized EPR steering paradox, which predicts a contradictory equality $2_{Q}=\left( 1+\delta\right)_{C}$ ($0\leq\delta<1$) given by the quantum ($Q$) and classical ($C$) theories. For any $N$-qubit state in which the conditional state of the steered party is pure, we test the paradox through a two-setting steering protocol, and find that the state is steerable if some specific measurement requirements are satisfied. Moreover, our construction also enlightens the building of EPR steering inequality, which may contribute to some schemes for typical quantum teleportation and quantum key distributions., Comment: Main: 8 pages, 0 Figure; SM: 35 pages, 0 figure. Revised version

Published
2024

153. CLAD: Robust Audio Deepfake Detection Against Manipulation Attacks with Contrastive Learning

Author

Wu, Haolin, Chen, Jing, Du, Ruiying, Wu, Cong, He, Kun, Shang, Xingcan, Ren, Hao, and Xu, Guowen

Subjects
Computer Science - Cryptography and Security, Computer Science - Machine Learning, Computer Science - Sound, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

The increasing prevalence of audio deepfakes poses significant security threats, necessitating robust detection methods. While existing detection systems exhibit promise, their robustness against malicious audio manipulations remains underexplored. To bridge the gap, we undertake the first comprehensive study of the susceptibility of the most widely adopted audio deepfake detectors to manipulation attacks. Surprisingly, even manipulations like volume control can significantly bypass detection without affecting human perception. To address this, we propose CLAD (Contrastive Learning-based Audio deepfake Detector) to enhance the robustness against manipulation attacks. The key idea is to incorporate contrastive learning to minimize the variations introduced by manipulations, therefore enhancing detection robustness. Additionally, we incorporate a length loss, aiming to improve the detection accuracy by clustering real audios more closely in the feature space. We comprehensively evaluated the most widely adopted audio deepfake detection models and our proposed CLAD against various manipulation attacks. The detection models exhibited vulnerabilities, with FAR rising to 36.69%, 31.23%, and 51.28% under volume control, fading, and noise injection, respectively. CLAD enhanced robustness, reducing the FAR to 0.81% under noise injection and consistently maintaining an FAR below 1.63% across all tests. Our source code and documentation are available in the artifact repository (https://github.com/CLAD23/CLAD)., Comment: Submitted to IEEE TDSC

Published
2024

154. EarPass: Secure and Implicit Call Receiver Authentication Using Ear Acoustic Sensing

Author

Sun, Xiping, Chen, Jing, He, Kun, He, Zhixiang, Du, Ruiying, Feng, Yebo, Zhao, Qingchuan, and Wu, Cong

Subjects
Computer Science - Cryptography and Security
Abstract

Private voice communication often contains sensitive information, making it critical to ensure that only authorized users have access to such calls. Unfortunately, current authentication mechanisms, such as PIN-based passwords, fingerprint recognition, and face recognition, fail to authenticate the call receiver, leaving a gap in security. To fill the gap, we present EarPass, a secure and implicit call receiver authentication scheme designed for smartphones. EarPass sends inaudible acoustic signals through the earpiece speaker to actively sense the outer ear, and records echoes using the top microphone. It focuses on extracting ear-related signals from echoes and performs spectrogram analysis in the magnitude and phase domains. To overcome posture and position variability, EarPass utilizes a learning-based feature extractor for extracting representative features, and a one-class classifier for authentication. EarPass does not increase any burdens on users or change users' call answering habits. Furthermore, it does not require extra devices but only uses the speaker and microphone on the smartphone. We conducted comprehensive experiments to evaluate EarPass's effectiveness and security. Our results show that EarPass can achieve a balanced accuracy of 96.95% and an equal error rate of 1.53%. Additionally, EarPass exhibits resilience against potential attacks, including zero-effort attacks and mimicry attacks.

Published
2024

155. $SO(4)$ Symmetry in Hydrogen Atom with Spin

Author

Fan, Xing-Yan, Xie, Xiang-Ru, Li, Sheng-Ming, and Chen, Jing-Ling

Subjects
Quantum Physics
Abstract

As the simplest atom in nature, the hydrogen atom has been explored thoroughly from the perspective of non-relativistic quantum mechanics to relativistic quantum mechanics. Among the research on hydrogen atom, its energy level is the most basic, which can be obtained more conveniently predicated on the $SO(4)$ symmetry than the wave-equation resolution. Moreover, ``spin'' is another indispensable topic in quantum mechanics, appearing as an intrinsic degree of freedom. In this work, we generalize the quantum Runge-Lenz vector to a spin-dependent one, and then extract a novel Hamiltonian of hydrogen atom with spin based on the requirement of $SO(4)$ symmetry. Furthermore, the energy spectrum of hydrogen atom with spin potentials is also determined by the remarkable approach of $SO(4)$ symmetry. Our findings extend the ground of hydrogen atom, and may contribute to other complicated models based on hydrogen atom., Comment: 7 pages, 0 figure

Published
2024

156. A Distributed Scalable Cross-chain State Channel Scheme Based on Recursive State Synchronization

Author

Liang, Xinyu, Du, Ruiying, Chen, Jing, Zhang, Yu, Jia, Meng, Cao, Shuangxi, Wei, Yufeng, and Yao, Shixiong

Subjects
Computer Science - Networking and Internet Architecture
Abstract

As cross-chain technology continues to advance, the scale of cross-chain transactions is experiencing significant expansion. To improve scalability, researchers have turned to the study of cross-chain state channels. However, most of the existing schemes rely on trusted parties to support channel operations. To address this issue, we present Interpipe: a distributed cross-chain state channel scheme. Specifically, we propose a real-time cross-chain synchronization scheme to ensure consistent operations between two blockchains to a cross-chain state channel. Moreover, we propose a batch transaction proof scheme based on recursive SNARK to meet the cross-chain verification needs of large-scale users. Based on the above designs, Interpipe offers protocols for opening, updating, closing, and disputing operations to cross-chain state channels. Security analysis shows that Interpipe has consistency and resistance, and experimental results demonstrate that a cross-chain state channel can be nearly as efficient as an existing intra-chain state channel.

Published
2024

157. Realization of a three-dimensional photonic higher-order topological insulator

Author

Wang, Ziyao, Meng, Yan, Yan, Bei, Zhao, Dong, Yang, Linyun, Chen, Jing-Ming, Cheng, Min-Qi, Xiao, Tao, Shum, Perry Ping, Liu, Gui-Geng, Yang, Yihao, Chen, Hongsheng, Xi, Xiang, Zhu, Zhen-Xiao, Xie, Biye, and Gao, Zhen

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

The discovery of photonic higher-order topological insulators (HOTIs) has significantly expanded our understanding of band topology and provided unprecedented lower-dimensional topological boundary states for robust photonic devices. However, due to the vectorial and leaky nature of electromagnetic waves, it is challenging to discover three-dimensional (3D) topological photonic systems and photonic HOTIs have so far still been limited to two dimensions (2D). Here, we report on the first experimental realization of a 3D Wannier-type photonic HOTI in a tight-binding-like metal-cage photonic crystal, whose band structure matches well with that of a 3D tight-binding model due to the confined Mie resonances. By microwave near-field measurements, we directly observe coexisting topological surface, hinge, and corner states in a single 3D photonic HOTI, as predicted by the tight-binding model and simulation results. Moreover, we demonstrate that all-order topological boundary states are self-guided even in the light cone continuum and can be exposed to air without ancillary cladding, making them well-suited for practical applications. Our work thus opens routes to the multi-dimensional robust manipulation of electromagnetic waves at the outer surfaces of 3D cladding-free photonic bandgap materials and may find novel applications in 3D topological integrated photonics devices., Comment: 23 pages,4 figures

Published
2024

158. Revealing the Boundary between Quantum Mechanics and Classical Model by EPR-Steering Inequality

Author

Wang, Ruo-Chen, Li, Zhuo-Chen, Fan, Xing-Yan, Xie, Xiang-Ru, Wei, Hong-Hao, Oh, Choo Hiap, and Chen, Jing-Ling

Subjects
Quantum Physics
Abstract

In quantum information, the Werner state is a benchmark to test the boundary between quantum mechanics and classical models. There have been three well-known critical values for the two-qubit Werner state, i.e., $V_{\rm c}^{\rm E}=1/3$ characterizing the boundary between entanglement and separable model, $V_{\rm c}^{\rm B}=1/K_G(3)$ characterizing the boundary between Bell's nonlocality and the local-hidden-variable model, while $V_{\rm c}^{\rm S}=1/2$ characterizing the boundary between Einstein-Podolsky-Rosen (EPR) steering and the local-hidden-state model. So far, the problem of $V_{\rm c}^{\rm E}=1/3$ has been completely solved by an inequality involving in the positive-partial-transpose criterion, while how to reveal the other two critical values by the inequality approach are still open. In this work, we focus on EPR steering, which is a form of quantum nonlocality intermediate between entanglement and Bell's nonlocality. By proposing the optimal $N$-setting linear EPR-steering inequalities, we have successfully obtained the desired value $V_{\rm c}^{\rm S}=1/2$ for the two-qubit Werner state, thus resolving the long-standing problem., Comment: Main text: 6 pages, 2 figures; SM: 8 pages, 5 figures. Adding some references

Published
2024

159. MagLive: Robust Voice Liveness Detection on Smartphones Using Magnetic Pattern Changes

Author

Sun, Xiping, Chen, Jing, Wu, Cong, He, Kun, Xu, Haozhe, Feng, Yebo, Du, Ruiying, and Chen, Xianhao

Subjects
Computer Science - Cryptography and Security
Abstract

Voice authentication has been widely used on smartphones. However, it remains vulnerable to spoofing attacks, where the attacker replays recorded voice samples from authentic humans using loudspeakers to bypass the voice authentication system. In this paper, we present MagLive, a robust voice liveness detection scheme designed for smartphones to mitigate such spoofing attacks. MagLive leverages the differences in magnetic pattern changes generated by different speakers (i.e., humans or loudspeakers) when speaking for liveness detection, which are captured by the built-in magnetometer on smartphones. To extract effective and robust magnetic features, MagLive utilizes a TF-CNN-SAF model as the feature extractor, which includes a time-frequency convolutional neural network (TF-CNN) combined with a self-attention-based fusion (SAF) model. Supervised contrastive learning is then employed to achieve user-irrelevance, device-irrelevance, and content-irrelevance. MagLive imposes no additional burden on users and does not rely on active sensing or specialized hardware. We conducted comprehensive experiments with various settings to evaluate the security and robustness of MagLive. Our results demonstrate that MagLive effectively distinguishes between humans and attackers (i.e., loudspeakers), achieving an average balanced accuracy (BAC) of 99.01% and an equal error rate (EER) of 0.77%.

Published
2024

160. Construction of topological quantum magnets from atomic spins on surfaces

Author

Wang, Hao, Fan, Peng, Chen, Jing, Jiang, Lili, Gao, Hong-Jun, Lado, Jose L., and Yang, Kai

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

Artificial quantum systems have emerged as indispensable platforms to realize exotic topological matter in a well-controlled manner. Here, we demonstrate topological quantum Heisenberg spin lattices, engineered with spin chains and two-dimensional spin arrays using spin 1/2 atoms on insulating films in a scanning tunnelling microscope (STM). We engineered with atomic precision both topological and trivial phases of the quantum spin model, realizing first- and second-order topological quantum magnets. Their many-body excitations were probed by single-atom electron spin resonance with ultrahigh energy resolution. The atomically-localized magnetic field of the STM tip allows us to directly visualize various topological bound modes including topological edge states, topological defects, and higher-order corner modes. Our results provide an important bottom-up approach to simulating exotic quantum many-body phases of interacting spins., Comment: Nature Nanotechnology (2024)

Published
2024
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161. Towards Independence Criterion in Machine Unlearning of Features and Labels

Author

Han, Ling, Luo, Nanqing, Huang, Hao, Chen, Jing, and Hartley, Mary-Anne

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Cryptography and Security, I.2.6
Abstract

This work delves into the complexities of machine unlearning in the face of distributional shifts, particularly focusing on the challenges posed by non-uniform feature and label removal. With the advent of regulations like the GDPR emphasizing data privacy and the right to be forgotten, machine learning models face the daunting task of unlearning sensitive information without compromising their integrity or performance. Our research introduces a novel approach that leverages influence functions and principles of distributional independence to address these challenges. By proposing a comprehensive framework for machine unlearning, we aim to ensure privacy protection while maintaining model performance and adaptability across varying distributions. Our method not only facilitates efficient data removal but also dynamically adjusts the model to preserve its generalization capabilities. Through extensive experimentation, we demonstrate the efficacy of our approach in scenarios characterized by significant distributional shifts, making substantial contributions to the field of machine unlearning. This research paves the way for developing more resilient and adaptable unlearning techniques, ensuring models remain robust and accurate in the dynamic landscape of data privacy and machine learning., Comment: 10 pages, 1 figure

Published
2024

162. Human Activity Recognition with Low-Resolution Infrared Array Sensor Using Semi-supervised Cross-domain Neural Networks for Indoor Environment

Author

Yin, Cunyi, Miao, Xiren, Chen, Jing, Jiang, Hao, Chen, Deying, Tong, Yixuan, and Zheng, Shaocong

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Low-resolution infrared-based human activity recognition (HAR) attracted enormous interests due to its low-cost and private. In this paper, a novel semi-supervised crossdomain neural network (SCDNN) based on 8 $\times$ 8 low-resolution infrared sensor is proposed for accurately identifying human activity despite changes in the environment at a low-cost. The SCDNN consists of feature extractor, domain discriminator and label classifier. In the feature extractor, the unlabeled and minimal labeled target domain data are trained for domain adaptation to achieve a mapping of the source domain and target domain data. The domain discriminator employs the unsupervised learning to migrate data from the source domain to the target domain. The label classifier obtained from training the source domain data improves the recognition of target domain activities due to the semi-supervised learning utilized in training the target domain data. Experimental results show that the proposed method achieves 92.12\% accuracy for recognition of activities in the target domain by migrating the source and target domains. The proposed approach adapts superior to cross-domain scenarios compared to the existing deep learning methods, and it provides a low-cost yet highly adaptable solution for cross-domain scenarios.

Published
2024
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163. PowerSkel: A Device-Free Framework Using CSI Signal for Human Skeleton Estimation in Power Station

Author

Yin, Cunyi, Miao, Xiren, Chen, Jing, Jiang, Hao, Yang, Jianfei, Zhou, Yunjiao, Wu, Min, and Chen, Zhenghua

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Safety monitoring of power operations in power stations is crucial for preventing accidents and ensuring stable power supply. However, conventional methods such as wearable devices and video surveillance have limitations such as high cost, dependence on light, and visual blind spots. WiFi-based human pose estimation is a suitable method for monitoring power operations due to its low cost, device-free, and robustness to various illumination conditions.In this paper, a novel Channel State Information (CSI)-based pose estimation framework, namely PowerSkel, is developed to address these challenges. PowerSkel utilizes self-developed CSI sensors to form a mutual sensing network and constructs a CSI acquisition scheme specialized for power scenarios. It significantly reduces the deployment cost and complexity compared to the existing solutions. To reduce interference with CSI in the electricity scenario, a sparse adaptive filtering algorithm is designed to preprocess the CSI. CKDformer, a knowledge distillation network based on collaborative learning and self-attention, is proposed to extract the features from CSI and establish the mapping relationship between CSI and keypoints. The experiments are conducted in a real-world power station, and the results show that the PowerSkel achieves high performance with a PCK@50 of 96.27%, and realizes a significant visualization on pose estimation, even in dark environments. Our work provides a novel low-cost and high-precision pose estimation solution for power operation.

Published
2024
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164. Effects of KBr and KI on Photocatalytic Degradation of Dye W-7G with Nano-TiO2 as Catalyst

Author

Chao Zou, Qi-Jin Geng, Jing-Tuo Zhu, Chen Jing, Wen Zhong, and Zhao-Sheng Hou

Subjects
Renewable energy sources, TJ807-830
Abstract

To investigate the influence of inorganic salt on the photocatalytic degradation, the effects of KBr and KI at various concentrations and pH values on the photocatalytic degradation of dye W-7G using nanoscaled titanium dioxide as photocatalyst in a bubbling fluidized bed photocatalytic reactor (BFBPR) were studied. The results indicated that the degradation apparent rate constant (Kapp) of the system with KI was clearly higher than that with KBr under acidic or alkaline conditions. And the maximum value of Kapp (0.01127) appeared at the KI concentration of 0.075 g L-1 with a pH value of 9.37, meaning the highest degradation efficiency. Furthermore, the possible mechanism of photocatalytic degradation of W-7G in the presence of KBr and KI was proposed, which could provide a theoretical support for the further study of inorganic salt effects on the photocatalytic degradation of dyes.

Published
2021
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171. Plant diversity enhances ecosystem multifunctionality via multitrophic diversity

Author

Li, Yi, Schuldt, Andreas, Ebeling, Anne, Eisenhauer, Nico, Huang, Yuanyuan, Albert, Georg, Albracht, Cynthia, Amyntas, Angelos, Bonkowski, Michael, Bruelheide, Helge, Bröcher, Maximilian, Chesters, Douglas, Chen, Jun, Chen, Yannan, Chen, Jing-Ting, Ciobanu, Marcel, Deng, Xianglu, Fornoff, Felix, Gleixner, Gerd, Guo, Liangdong, Guo, Peng-Fei, Heintz-Buschart, Anna, Klein, Alexandra-Maria, Lange, Markus, Li, Shan, Li, Qi, Li, Yingbin, Luo, Arong, Meyer, Sebastian T., von Oheimb, Goddert, Rutten, Gemma, Scholten, Thomas, Solbach, Marcel D., Staab, Michael, Wang, Ming-Qiang, Zhang, Naili, Zhu, Chao-Dong, Schmid, Bernhard, Ma, Keping, and Liu, Xiaojuan

Published
2024
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177. Design of customized coronavirus receptors

Author

Liu, Peng, Huang, Mei-Ling, Guo, Hua, McCallum, Matthew, Si, Jun-Yu, Chen, Yuan-Mei, Wang, Chun-Li, Yu, Xiao, Shi, Lu-Lu, Xiong, Qing, Ma, Cheng-Bao, Bowen, John E., Tong, Fei, Liu, Chen, Sun, Ye-hui, Yang, Xiao, Chen, Jing, Guo, Ming, Li, Jing, Corti, Davide, Veesler, David, Shi, Zheng-Li, and Yan, Huan

Published
2024
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196. Global marine microbial diversity and its potential in bioprospecting

Author

Chen, Jianwei, Jia, Yangyang, Sun, Ying, Liu, Kun, Zhou, Changhao, Liu, Chuan, Li, Denghui, Liu, Guilin, Zhang, Chengsong, Yang, Tao, Huang, Lei, Zhuang, Yunyun, Wang, Dazhi, Xu, Dayou, Zhong, Qiaoling, Guo, Yang, Li, Anduo, Seim, Inge, Jiang, Ling, Wang, Lushan, Lee, Simon Ming Yuen, Liu, Yujing, Wang, Dantong, Zhang, Guoqiang, Liu, Shanshan, Wei, Xiaofeng, Yue, Zhen, Zheng, Shanmin, Shen, Xuechun, Wang, Sen, Qi, Chen, Chen, Jing, Ye, Chen, Zhao, Fang, Wang, Jun, Fan, Jie, Li, Baitao, Sun, Jiahui, Jia, Xiaodong, Xia, Zhangyong, Zhang, He, Liu, Junnian, Zheng, Yue, Liu, Xin, Wang, Jian, Yang, Huanming, Kristiansen, Karsten, Xu, Xun, Mock, Thomas, Li, Shengying, Zhang, Wenwei, and Fan, Guangyi

Published
2024
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