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1. Nonresonant Raman control of material phases

Author

Shi, Jiaojian, Heide, Christian, Xu, Haowei, Huang, Yijing, Shen, Yuejun, Guzelturk, Burak, Henstridge, Meredith, Schön, Carl Friedrich, Mangu, Anudeep, Kobayashi, Yuki, Peng, Xinyue, Zhang, Shangjie, May, Andrew F., Reddy, Pooja Donthi, Shautsova, Viktoryia, Taghinejad, Mohammad, Luo, Duan, Hughes, Eamonn, Brongersma, Mark L., Mukherjee, Kunal, Trigo, Mariano, Heinz, Tony F., Li, Ju, Nelson, Keith A., Baldini, Edoardo, Zhou, Jian, Ghimire, Shambhu, Wuttig, Matthias, Reis, David A., and Lindenberg, Aaron M.

Subjects
Physics - Optics, Condensed Matter - Materials Science
Abstract

Important advances have recently been made in the search for materials with complex multi-phase landscapes that host photoinduced metastable collective states with exotic functionalities. In almost all cases so far, the desired phases are accessed by exploiting light-matter interactions via the imaginary part of the dielectric function through above-bandgap or resonant mode excitation. Nonresonant Raman excitation of coherent modes has been experimentally observed and proposed for dynamic material control, but the resulting atomic excursion has been limited to perturbative levels. Here, we demonstrate that it is possible to overcome this challenge by employing nonresonant ultrashort pulses with low photon energies well below the bandgap. Using mid-infrared pulses, we induce ferroelectric reversal in lithium niobate and phase switching in tin selenide and characterize the large-amplitude mode displacements through femtosecond Raman scattering, second harmonic generation, and x-ray diffraction. This approach, validated by first-principle calculations, defines a novel method for synthesizing hidden phases with unique functional properties and manipulating complex energy landscapes at reduced energy consumption and ultrafast speeds., Comment: 5 figures

Published
2024

2. Bridging Context Gaps: Leveraging Coreference Resolution for Long Contextual Understanding

Author

Liu, Yanming, Peng, Xinyue, Cao, Jiannan, Bo, Shi, Shen, Yanxin, Zhang, Xuhong, Cheng, Sheng, Wang, Xun, Yin, Jianwei, and Du, Tianyu

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence
Abstract

Large language models (LLMs) have shown remarkable capabilities in natural language processing; however, they still face difficulties when tasked with understanding lengthy contexts and executing effective question answering. These challenges often arise due to the complexity and ambiguity present in longer texts. To enhance the performance of LLMs in such scenarios, we introduce the Long Question Coreference Adaptation (LQCA) method. This innovative framework focuses on coreference resolution tailored to long contexts, allowing the model to identify and manage references effectively. The LQCA method encompasses four key steps: resolving coreferences within sub-documents, computing the distances between mentions, defining a representative mention for coreference, and answering questions through mention replacement. By processing information systematically, the framework provides easier-to-handle partitions for LLMs, promoting better understanding. Experimental evaluations on a range of LLMs and datasets have yielded positive results, with a notable improvements on OpenAI-o1-mini and GPT-4o models, highlighting the effectiveness of leveraging coreference resolution to bridge context gaps in question answering., Comment: Underreview version of LQCA, Bridge context gap for long context

Published
2024

3. DP-MemArc: Differential Privacy Transfer Learning for Memory Efficient Language Models

Author

Liu, Yanming, Peng, Xinyue, Zhang, Yuwei, Ke, Xiaolan, Deng, Songhang, Cao, Jiannan, Ma, Chen, Fu, Mengchen, Zhang, Xuhong, Cheng, Sheng, Wang, Xun, Yin, Jianwei, and Du, Tianyu

Subjects
Computer Science - Cryptography and Security, Computer Science - Artificial Intelligence, Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Large language models have repeatedly shown outstanding performance across diverse applications. However, deploying these models can inadvertently risk user privacy. The significant memory demands during training pose a major challenge in terms of resource consumption. This substantial size places a heavy load on memory resources, raising considerable practical concerns. In this paper, we introduce DP-MemArc, a novel training framework aimed at reducing the memory costs of large language models while emphasizing the protection of user data privacy. DP-MemArc incorporates side network or reversible network designs to support a variety of differential privacy memory-efficient fine-tuning schemes. Our approach not only achieves in memory optimization but also ensures robust privacy protection, keeping user data secure and confidential. Extensive experiments have demonstrated that DP-MemArc effectively provides differential privacy-efficient fine-tuning across different task scenarios., Comment: 9 pages second version

Published
2024

4. Tool-Planner: Task Planning with Clusters across Multiple Tools

Author

Liu, Yanming, Peng, Xinyue, Cao, Jiannan, Bo, Shi, Zhang, Yuwei, Zhang, Xuhong, Cheng, Sheng, Wang, Xun, Yin, Jianwei, and Du, Tianyu

Subjects
Computer Science - Artificial Intelligence, Computer Science - Computation and Language, Computer Science - Robotics
Abstract

Large language models (LLMs) have demonstrated exceptional reasoning capabilities, enabling them to solve various complex problems. Recently, this ability has been applied to the paradigm of tool learning. Tool learning involves providing examples of tool usage and their corresponding functions, allowing LLMs to formulate plans and demonstrate the process of invoking and executing each tool. LLMs can address tasks that they cannot complete independently, thereby enhancing their potential across different tasks. However, this approach faces two key challenges. First, redundant error correction leads to unstable planning and long execution time. Additionally, designing a correct plan among multiple tools is also a challenge in tool learning. To address these issues, we propose Tool-Planner, a task-processing framework based on toolkits. Tool-Planner groups tools based on the API functions with the same function into a toolkit and allows LLMs to implement planning across the various toolkits. When a tool error occurs, the language model can reselect and adjust tools based on the toolkit. Experiments show that our approach demonstrates a high pass and win rate across different datasets and optimizes the planning scheme for tool learning in models such as GPT-4 and Claude 3, showcasing the potential of our method. Our code is public at \url{https://github.com/OceannTwT/Tool-Planner}, Comment: 48pages second version

Published
2024

5. CPA-Enhancer: Chain-of-Thought Prompted Adaptive Enhancer for Object Detection under Unknown Degradations

Author

Zhang, Yuwei, Wu, Yan, Liu, Yanming, and Peng, Xinyue

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Object detection methods under known single degradations have been extensively investigated. However, existing approaches require prior knowledge of the degradation type and train a separate model for each, limiting their practical applications in unpredictable environments. To address this challenge, we propose a chain-of-thought (CoT) prompted adaptive enhancer, CPA-Enhancer, for object detection under unknown degradations. Specifically, CPA-Enhancer progressively adapts its enhancement strategy under the step-by-step guidance of CoT prompts, that encode degradation-related information. To the best of our knowledge, it's the first work that exploits CoT prompting for object detection tasks. Overall, CPA-Enhancer is a plug-and-play enhancement model that can be integrated into any generic detectors to achieve substantial gains on degraded images, without knowing the degradation type priorly. Experimental results demonstrate that CPA-Enhancer not only sets the new state of the art for object detection but also boosts the performance of other downstream vision tasks under unknown degradations.

Published
2024

6. SPA: Towards A Computational Friendly Cloud-Base and On-Devices Collaboration Seq2seq Personalized Generation with Casual Inference

Author

Liu, Yanming, Peng, Xinyue, Bo, Shi, Sang, Ningjing, Yan, Yafeng, Ke, Xiaolan, Zheng, Zhiting, Liu, Shaobo, Deng, Songhang, Cao, Jiannan, Dai, Le, Liu, Xingzu, Nong, Ruilin, and Liu, Weihao

Subjects
Computer Science - Computation and Language
Abstract

Large language models(LLMs) have shown its outperforming ability on various tasks and question answering. However, LLMs require substantial memory storage on low-resource devices. More critically, the computational speed on these devices is also severely limited. In this paper, we propose SPA(Side Plugin Adaption), a lightweight architecture for fast on-devices inference on the constraints of strict on-devices computation and memory constraints. Compared with other on-devices seq2seq generation, SPA could make a fast and stable inference on low-resource constraints, allowing it to obtain cost effiency. Our method establish an interaction between a pretrained LLMs on-cloud and additive parameters on-devices, which could provide the knowledge on both pretrained LLMs and featured personal feature. Further more, SPA provides a framework to keep feature-base parameters on low computational devices while leave the parameters containing general information on the high computational devices., Comment: 12 pages, third version of SPA(Side Plugin Adaption)

Published
2024

7. ERA-CoT: Improving Chain-of-Thought through Entity Relationship Analysis

Author

Liu, Yanming, Peng, Xinyue, Du, Tianyu, Yin, Jianwei, Liu, Weihao, and Zhang, Xuhong

Subjects
Computer Science - Computation and Language
Abstract

Large language models (LLMs) have achieved commendable accomplishments in various natural language processing tasks. However, LLMs still encounter significant challenges when dealing with complex scenarios involving multiple entities. These challenges arise from the presence of implicit relationships that demand multi-step reasoning. In this paper, we propose a novel approach ERA-CoT, which aids LLMs in understanding context by capturing relationships between entities and supports the reasoning of diverse tasks through Chain-of-Thoughts (CoT). Experimental results show that ERA-CoT demonstrates the superior performance of our proposed method compared to current CoT prompting methods, achieving a significant improvement of an average of 5.1\% on GPT3.5 compared to previous SOTA baselines. Our analysis indicates that ERA-CoT increases the LLM's understanding of entity relationships, significantly improves the accuracy of question answering, and enhances the reasoning ability of LLMs., Comment: 15 pages, second version of ERA-CoT

Published
2024

8. RA-ISF: Learning to Answer and Understand from Retrieval Augmentation via Iterative Self-Feedback

Author

Liu, Yanming, Peng, Xinyue, Zhang, Xuhong, Liu, Weihao, Yin, Jianwei, Cao, Jiannan, and Du, Tianyu

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence
Abstract

Large language models (LLMs) demonstrate exceptional performance in numerous tasks but still heavily rely on knowledge stored in their parameters. Moreover, updating this knowledge incurs high training costs. Retrieval-augmented generation (RAG) methods address this issue by integrating external knowledge. The model can answer questions it couldn't previously by retrieving knowledge relevant to the query. This approach improves performance in certain scenarios for specific tasks. However, if irrelevant texts are retrieved, it may impair model performance. In this paper, we propose Retrieval Augmented Iterative Self-Feedback (RA-ISF), a framework that iteratively decomposes tasks and processes them in three submodules to enhance the model's problem-solving capabilities. Experiments show that our method outperforms existing benchmarks, performing well on models like GPT3.5, Llama2, significantly enhancing factual reasoning capabilities and reducing hallucinations., Comment: 20 pages, multiple figures. Providing second version RA-ISF

Published
2024

15. Intelligent Recognition and 3D Modeling of Rural Buildings Based on Multi-Source Data Fusion

Author

Chen Biao, Peng Xinyue, Zhou Suhong, Chen Jialiang, Kong Xianjuan, Bian Mingyue, and Lin Gaoyuan

Subjects
rural modeling, building recognition, texture mapping, mask r_cnn, Geography (General), G1-922
Abstract

China's rural areas are vast, and housing construction is the primary organization of farmers' living spaces and an essential focus of the national implementation of rural revitalization. However, there is a lack of rural housing census data and methods that quickly and accurately establish a rural three-dimensional (3D)-building model. The existing 3D-building modeling techniques, including manual modeling and oblique photography modeling, are encountering the problem of high cost and do not meet the construction requirements of low cost and comprehensive coverage. With the development of satellite remote sensing technology in China, building recognition based on high-resolution remote sensing images has become a convenient and rapid technical tool. At the same time, with the widespread use of smartphones and their potent computing power, people can easily and quickly access the Internet and receive a three-dimensional display. Compared with two-dimensional products, three-dimensional products can show rural buildings, terrain, and landscape more clearly, enhance the refined management of rural areas, and improve enthusiasm to participate in rural construction. Therefore, this study proposes a simple rural 3D building modeling method based on multi-source data fusion, namely intelligent identification and 3D modeling for rural buildings. This method consists of two stages: rough model generation and deepening. In the rough model generation stage, the building is identified based on high-resolution remote sensing images and Mask R_CNN technology, the location of the building is determined, and the basic white model is obtained by stretching. In the deepening stage, field collectors replace the basic white model with a more refined and parameterized model based on the rural building model library, according to the actual situation. Subsequently, they supplement the building facade texture through smartphone photography and texture processing. Finally, a physical, storable, and exchangeable 3D-building model is obtained through coordinate matching, image terrain fusion, 3D-lightweight technology, and other technologies. This study adopts the modeling strategy of gradual deepening to reduce the modeling cost. The associated high-resolution remote sensing image recognition technology and mobile phone-based 3D modeling and display technologies are relatively advanced. Based on the characteristics of architectural styles in rural areas, a set of rural building-model libraries based on CSG technology was constructed. Model replacement, model size adjustment, texture mapping, and other operations were quickly used to build a refined 3D model. Finally, the 3D models were lightly processed and fused with the image topography and other data, which meets the demand for smooth browsing from various aspects. The 3D model of Hecun Village in Xinxing County was experimentally reconstructed, illustrating that the method can support applications such as rural surveys, rural planning, rural construction, and co-production. The modeling results show that the method is simple, easy to use, and reduces the high requirements of conventional modeling in terms of data acquisition and processing. It can provide a low-cost, highly efficient, and prevalent 3D-reconstruction method for rural regions, which is suitable for widespread promotion.

Published
2023
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17. SPA: Towards A Computational Friendly Cloud-Base and On-Devices Collaboration Seq2seq Personalized Generation

Author

Liu, Yanming, Peng, Xinyue, Cao, Jiannan, Dai, Le, Liu, Xingzu, Liu, Weihao, Wang, Mingbang, Liu, Yanming, Peng, Xinyue, Cao, Jiannan, Dai, Le, Liu, Xingzu, Liu, Weihao, and Wang, Mingbang

Abstract

Large language models(LLMs) have shown its outperforming ability on various tasks and question answering. However, LLMs require substantial memory storage on low-resource devices. More critically, the computational speed on these devices is also severely limited. In this paper, we propose SPA(Side Plugin Adaption), a lightweight architecture for fast on-devices inference on the constraints of strict on-devices computation and memory constraints. Compared with other on-devices seq2seq generation, SPA could make a fast and stable inference on low-resource constraints, allowing it to obtain cost effiency. Our method establish an interaction between a pretrained LLMs on-cloud and additive parameters on-devices, which could provide the knowledge on both pretrained LLMs and featured personal feature. Further more, SPA provides a framework to keep feature-base parameters on low computational devices while leave the parameters containing general information on the high computational devices., Comment: 15 pages, second version of SPA(Side Plugin Adaption)

Published
2024

18. Tool-Planner: Dynamic Solution Tree Planning for Large Language Model with Tool Clustering

Author

Liu, Yanming, Peng, Xinyue, Zhang, Yuwei, Cao, Jiannan, Zhang, Xuhong, Cheng, Sheng, Wang, Xun, Yin, Jianwei, Du, Tianyu, Liu, Yanming, Peng, Xinyue, Zhang, Yuwei, Cao, Jiannan, Zhang, Xuhong, Cheng, Sheng, Wang, Xun, Yin, Jianwei, and Du, Tianyu

Abstract

Large language models (LLMs) have demonstrated exceptional reasoning capabilities, enabling them to solve various complex problems. Recently, this ability has been applied to the paradigm of tool learning. Tool learning involves providing examples of tool usage and their corresponding functions, allowing LLMs to formulate plans and demonstrate the process of invoking and executing each tool. LLMs can address tasks that they cannot complete independently, thereby enhancing their potential across different tasks. However, this approach faces two key challenges. First, redundant error correction leads to unstable planning and long execution time. Additionally, designing a correct plan among multiple tools is also a challenge in tool learning. To address these issues, we propose Tool-Planner, a task-processing framework based on toolkits. Tool-Planner groups tools based on the API functions with the same function into a toolkit and allows LLMs to implement planning across the various toolkits. When a tool error occurs, the language model can reselect and adjust tools based on the toolkit. Experiments show that our approach demonstrates a high pass and win rate across different datasets and optimizes the planning scheme for tool learning in models such as GPT-4 and Claude 3, showcasing the potential of our method., Comment: 46pages first version

Published
2024

22. Nonreciprocal superconducting NbSe2 antenna

Author

Zhang, Enze, Xu, Xian, Zou, Yi-Chao, Ai, Linfeng, Dong, Xiang, Huang, Ce, Leng, Pengliang, Liu, Shanshan, Zhang, Yuda, Jia, Zehao, Peng, Xinyue, Zhao, Minhao, Yang, Yunkun, Li, Zihan, Guo, Hangwen, Haigh, Sarah J., Nagaosa, Naoto, Shen, Jian, and Xiu, Faxian

Published
2020
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28. Low-dose florfenicol and copper combined exposure during early life induced health risks by affecting gut microbiota and metabolome in SD rats

Author

Ma, Zheng, primary, Gao, Xue, additional, Yang, Xiao, additional, Lin, Lin, additional, Wei, Xiangyi, additional, Wang, Shuhan, additional, Li, Yuke, additional, Peng, Xinyue, additional, Zhao, Chuchu, additional, Chen, Jinyao, additional, Xiao, Hang, additional, Yuan, Ya, additional, and Dai, Juan, additional

Published
2022
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32. Effect of theaflavin-3,3′-digallate on leptin-deficient induced nonalcoholic fatty liver disease might be related to lipid metabolism regulated by the Fads1/PPARδ/Fabp4 axis and gut microbiota

Author

Zhou, Cheng, primary, Zhang, Wenji, additional, Lin, Hui, additional, Zhang, Luyun, additional, Wu, Fan, additional, Wang, Yan, additional, Yu, Susu, additional, Peng, Xinyue, additional, Cheng, Wenli, additional, Li, Min, additional, Pan, Xiaoying, additional, Huang, Zhenrui, additional, and Zhang, Wenjuan, additional

Published
2022
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39. Biological and epigenetic alterations of mitochondria involved in cellular replicative and hydrogen peroxide-induced premature senescence of human embryonic lung fibroblasts

Author

Wang, Yan, primary, Gao, Jianji, additional, Wu, Fan, additional, Lai, Caiyun, additional, Li, Yueqi, additional, Zhang, Gaoqiang, additional, Peng, Xinyue, additional, Yu, Susu, additional, Yang, Jiani, additional, Wang, Wei, additional, Zhang, Wenjuan, additional, and Yang, Xingfen, additional

Published
2021
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40. Dynamic Alteration Profile and New Role of RNA m6A Methylation in Replicative and H 2 O 2 -Induced Premature Senescence of Human Embryonic Lung Fibroblasts.

Author

Wu, Fan, Zhang, Luyun, Lai, Caiyun, Peng, Xinyue, Yu, Susu, Zhou, Cheng, Zhang, Bo, and Zhang, Wenjuan

Subjects
RNA methylation, AGING, CELLULAR aging, CATALYTIC RNA, DNA replication, RNA modification & restriction
Abstract

N6-methyladenosine (m6A) methylation is one of the most common RNA modifications, regulating RNA fate at the posttranscriptional level, and is closely related to cellular senescence. Both models of replicative and premature senescence induced by hydrogen peroxide (H2O2) were used to detect m6A regulation during the senescence of human embryonic lung fibroblasts (HEFs). The ROS level accumulated gradually with senescence, leading to normal replicative senescence. H2O2-treated cells had dramatically increased ROS level, inducing the onset of acute premature senescence. Compared with replicative senescence, ROS changed the expression profiles for m6A-related enzymes and binding proteins, including higher levels of METTL3, METTL14, WTAP, KIAA1429, and FTO, and lower levels of METTL16, ALKBH5, YTHDC1, and YTHDF1/2/3 in the premature senescence persistence group, respectively. Meanwhile, senescent cells decreased total m6A content and RNA methylation enzymes activity, regardless of replicative or premature senescence. Moreover, specific m6A methylation levels regulated the expression of SIRT3, IRS2, and E2F3 between replicative and premature senescence separately. Taken together, differential m6A epitranscription microenvironment and the targeted genes can be used as epigenetic biomarkers to cell senescence and the related diseases, offering new clues for the prevention and intervention of cellular senescence. [ABSTRACT FROM AUTHOR]

Published
2022
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43. 5th Anniversary Article: Towards Solar Methanol: Past, Present, and Future (Adv. Sci. 8/2019)

Author

Tountas, Athanasios A., primary, Peng, Xinyue, additional, Tavasoli, Alexandra V., additional, Duchesne, Paul N., additional, Dingle, Thomas L., additional, Dong, Yuchan, additional, Hurtado, Lourdes, additional, Mohan, Abhinav, additional, Sun, Wei, additional, Ulmer, Ulrich, additional, Wang, Lu, additional, Wood, Thomas E., additional, Maravelias, Christos T., additional, Sain, Mohini M., additional, and Ozin, Geoffrey A., additional

Published
2019
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44. Towards Solar Methanol: Past, Present, and Future

Author

Tountas, Athanasios A., primary, Peng, Xinyue, additional, Tavasoli, Alexandra V., additional, Duchesne, Paul N., additional, Dingle, Thomas L., additional, Dong, Yuchan, additional, Hurtado, Lourdes, additional, Mohan, Abhinav, additional, Sun, Wei, additional, Ulmer, Ulrich, additional, Wang, Lu, additional, Wood, Thomas E., additional, Maravelias, Christos T., additional, Sain, Mohini M., additional, and Ozin, Geoffrey A., additional

Published
2019
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45. Rhizosphere flavonoids alleviates the inhibition of soybean nodulation caused by shading under maize-soybean strip intercropping

Author

Lin, Ping, Liu, Shanshan, Fu, Zhidan, Luo, Kai, Li, Yiling, Peng, Xinyue, Yuan, Xiaoting, Yang, Lida, Pu, Tian, Li, Yuze, Yong, Taiwen, and Yang, Wenyu

Abstract

The flavonoids produced by legume roots are signal molecules that induce nod genes for symbiotic rhizobium. Nevertheless, the promoting effects of flavonoids in root exudates in intercropping system on soybean nodulation are still unknown. A two years of field experiments was carried with maize soybean strip intercropping, i.e., the interspecific row spacing of 30 cm (MS30), 45 cm (MS45), 60 cm (MS60), and sole soybean/maize:SS/MM, and root interaction, i.e., root no barrier (NB) and root polythene-plastic barrier (PB), to evaluate relationships between flavonoids in root exudates and nodulation. We found that root-root interaction between soybean and maize enhances the nodules number and fresh weight in intercropped soybean. This enhancement increase gradually with expansion of interspecific distance. Proportion of nodules with diameter greater than 0.4cm was higher in intercropped soybean with NB than with PB. The expressions of nodules-related genes (GmENOD40, GmNIN2band GmEXPB2) were up-regulated. Furthermore, compared with monocropping, isoflavones secretion of soybean roots reduced, flavonoids and flavonols secretion of maize and soybean roots increased under intercropping. The secretion of differential metabolites of flavonoids in the rhizosphere of maize and soybean declined with root barrier. The expressions of GmCHS8and GmIFS1in soybean roots were up-regulated and GmICHGwas down-regulated under root interaction. The most of the flavonoids and flavonol compounds were positively correlated with nodule diameter. The nodules number, the nodules fresh weight and the proportion of nodules with a diameter greater than 0.2 cm increased in different genotypes of soybean treated with maize root exudate, which promoted the improvement of nitrogen fixation capacity. Therefore, maize-soybean strip intercropping combined with reasonable spacing to enhance the positive effect of underground root interaction, and improve the nodulation and nitrogen fixation capacity of intercropping soybean.

Published
2024
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46. Nonreciprocal superconducting NbSe2 antenna.

Author

Zhang, Enze, Xu, Xian, Zou, Yi-Chao, Ai, Linfeng, Dong, Xiang, Huang, Ce, Leng, Pengliang, Liu, Shanshan, Zhang, Yuda, Jia, Zehao, Peng, Xinyue, Zhao, Minhao, Yang, Yunkun, Li, Zihan, Guo, Hangwen, Haigh, Sarah J., Nagaosa, Naoto, Shen, Jian, and Xiu, Faxian

Subjects
ELECTROMAGNETIC waves, ANTENNAS (Electronics), ALTERNATING currents, SUPERCONDUCTORS, IRON-based superconductors, MAGNETORESISTANCE, FLUX pinning
Abstract

The rise of two-dimensional (2D) crystalline superconductors has opened a new frontier of investigating unconventional quantum phenomena in low dimensions. However, despite the enormous advances achieved towards understanding the underlying physics, practical device applications like sensors and detectors using 2D superconductors are still lacking. Here, we demonstrate nonreciprocal antenna devices based on atomically thin NbSe2. Reversible nonreciprocal charge transport is unveiled in 2D NbSe2 through multi-reversal antisymmetric second harmonic magnetoresistance isotherms. Based on this nonreciprocity, our NbSe2 antenna devices exhibit a reversible nonreciprocal sensitivity to externally alternating current (AC) electromagnetic waves, which is attributed to the vortex flow in asymmetric pinning potentials driven by the AC driving force. More importantly, a successful control of the nonreciprocal sensitivity of the antenna devices has been achieved by applying electromagnetic waves with different frequencies and amplitudes. The device's response increases with increasing electromagnetic wave amplitude and exhibits prominent broadband sensing from 5 to 900 MHz. Here, the authors observe reversible nonreciprocal charge transport in two-dimensional NbSe2, and demonstrate antenna devices exhibiting strong sensitivity to driving AC electromagnetic waves in the superconducting regime. [ABSTRACT FROM AUTHOR]

Published
2020
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47. Revealing a distortive polar order buried in the Fermi sea.

Author

Shi J, You W, Li X, Gao FY, Peng X, Zhang S, Li J, Zhang Y, Fu L, Taylor PJ, Nelson KA, and Baldini E

Abstract

Polar metals are challenging to identify spectroscopically because the fingerprints of electric polarization are often obscured by the presence of screening charges. Here, we unravel unambiguous signatures of a distortive polar order buried in the Fermi sea by probing the nonlinear optical response of materials driven by tailored terahertz fields. We apply this strategy to investigate the topological crystalline insulator Pb 1- x Sn x Te, tracking its soft phonon mode in the time domain and observing the occurrence of inversion symmetry breaking as a function of temperature. By combining measurements across the material's phase diagram with ab initio calculations, we demonstrate the generality of our approach. These results highlight the potential of terahertz driving fields to reveal polar orders coexisting with itinerant electrons, thus opening additional avenues for material discovery.

Published
2024
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