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3,310 results on '"Chen, Ren"'

1. On-Chip Enhanced Biphoton Generation with Incoherent Light

Author

Song, Yue-Wei, Zhao, Heng, Chen, Li, Li, Yin-Hai, Li, Wu-Zhen, Gao, Ming-Yuan, Chen, Ren-Hui, Han, Zhao-Qi-Zhi, Xie, Meng-Yu, Zhou, Zhi-Yuan, and Shi, Bao-Sen

Subjects
Quantum Physics, Physics - Optics
Abstract

On-chip quantum photon sources are pivotal components in integrated photonics, driving significant advancements in quantum information technologies over recent decades. Traditionally, the coherence of the pump beam has been considered a critical property in ensuring the quality of the source. In this work, we produce a photon-pair source via spontaneous four-wave mixing pumped by temporally incoherent light in a standard silicon nanowire. Compared to a coherent laser, the incoherence improves pump utilization efficiency, which results in higher source brightness. Additionally, its spectrally uncorrelated nature of incoherent light is transferred to the generated photon source, allowing high-purity state preparation without the need for narrow filtering. Experimentally, we demonstrate the advantages using an amplified spontaneous emission source over a continuous-wave laser. With temporally incoherent pumping, the photon pair generation rate increases by 40%. The coincidence-to-accidental ratio and heralded second-order autocorrelation exhibit improved performance at low power. Our work expands the scope of incoherently pumped quantum states and provides a method for generating photon sources using a more readily accessible light.

Published
2024

2. Quantum key distribution based on mid-infrared and telecom band two-color entanglement source

Author

Li, Wu-Zhen, Zhou, Chun, Wang, Yang, Chen, Li, Chen, Ren-Hui, Han, Zhao-Qi-Zhi, Gao, Ming-Yuan, Wang, Xiao-Hua, Zheng, Di-Yuan, Xie, Meng-Yu, Li, Yin-Hai, Zhou, Zhi-Yuan, Bao, Wan-Su, and Shi, Bao-Sen

Subjects
Quantum Physics
Abstract

Due to the high noise caused by solar background radiation, the existing satellite-based free-space quantum key distribution (QKD) experiments are mainly carried out at night, hindering the establishment of a practical all-day real-time global-scale quantum network. Given that the 3-5 {\mu}m mid-infrared (MIR) band has extremely low solar background radiation and strong scattering resistance, it is one of the ideal bands for free-space quantum communication. Here, firstly, we report on the preparation of a high-quality MIR (3370 nm) and telecom band (1555 nm) two-color polarization-entangled photon source, then we use this source to realize a principle QKD based on free-space and fiber hybrid channels in a laboratory. The theoretical analysis clearly shows that a long-distance QKD over 500 km of free-space and 96 km of fiber hybrid channels can be reached simultaneously. This work represents a significant step toward developing all-day global-scale quantum communication networks., Comment: 24 pages, 9 figures

Published
2024

3. Retrieval Augmentation via User Interest Clustering

Author

Lyu, Hanjia, Zeng, Hanqing, Xia, Yinglong, Chen, Ren, and Luo, Jiebo

Subjects
Computer Science - Information Retrieval
Abstract

Many existing industrial recommender systems are sensitive to the patterns of user-item engagement. Light users, who interact less frequently, correspond to a data sparsity problem, making it difficult for the system to accurately learn and represent their preferences. On the other hand, heavy users with rich interaction history often demonstrate a variety of niche interests that are hard to be precisely captured under the standard "user-item" similarity measurement. Moreover, implementing these systems in an industrial environment necessitates that they are resource-efficient and scalable to process web-scale data under strict latency constraints. In this paper, we address these challenges by introducing an intermediate "interest" layer between users and items. We propose a novel approach that efficiently constructs user interest and facilitates low computational cost inference by clustering engagement graphs and incorporating user-interest attention. This method enhances the understanding of light users' preferences by linking them with heavy users. By integrating user-interest attention, our approach allows a more personalized similarity metric, adept at capturing the complex dynamics of user-item interactions. The use of interest as an intermediary layer fosters a balance between scalability and expressiveness in the model. Evaluations on two public datasets reveal that our method not only achieves improved recommendation performance but also demonstrates enhanced computational efficiency compared to item-level attention models. Our approach has also been deployed in multiple products at Meta, facilitating short-form video related recommendation.

Published
2024

4. Quantum-Enhanced Polarimetric Imaging

Author

Xie, Meng-Yu, Niu, Su-Jian, Han, Zhao-Qi-Zhi, Li, Yin-Hai, Chen, Ren-Hui, Wang, Xiao-Hua, Gao, Ming-Yuan, Chen, Li, Song, Yue-Wei, Zhou, Zhi-Yuan, and Shi, Bao-Sen

Subjects
Physics - Optics, Quantum Physics
Abstract

Polarimetric imaging, a technique that captures the invisible polarization-related properties of given materials, has broad applications from fundamental physics to advanced fields such as target recognition, stress detection, biomedical diagnosis and remote sensing. The introduction of quantum sources into classical imaging systems has demonstrated distinct advantages, yet few studies have explored their combination with polarimetric imaging. In this study, we present a quantum polarimetric imaging system that integrates polarization-entangled photon pairs into a polarizer-sample-compensator-analyzer (PSRA)-type polarimeter. Our system visualizes the birefringence properties of a periodical-distributed anisotropic material under decreasing illumination levels and diverse disturbing light sources. Compared to the classical system, the quantum approach reveals the superior sensitivity and robustness in low-light conditions, particularly useful in biomedical studies where the low illumination and non-destructive detection are urgently needed. The study also highlights the nonlocality of entangled photons in birefringence measurement, indicating the potential of quantum polarimetric system in the remote sensing domain.

Published
2024

5. Reka Core, Flash, and Edge: A Series of Powerful Multimodal Language Models

Author

Reka Team, Ormazabal, Aitor, Zheng, Che, d'Autume, Cyprien de Masson, Yogatama, Dani, Fu, Deyu, Ong, Donovan, Chen, Eric, Lamprecht, Eugenie, Pham, Hai, Ong, Isaac, Aleksiev, Kaloyan, Li, Lei, Henderson, Matthew, Bain, Max, Artetxe, Mikel, Relan, Nishant, Padlewski, Piotr, Liu, Qi, Chen, Ren, Phua, Samuel, Yang, Yazheng, Tay, Yi, Wang, Yuqi, Zhu, Zhongkai, and Xie, Zhihui

Subjects
Computer Science - Computation and Language, Computer Science - Computer Vision and Pattern Recognition
Abstract

We introduce Reka Core, Flash, and Edge, a series of powerful multimodal language models trained from scratch by Reka. Reka models are able to process and reason with text, images, video, and audio inputs. This technical report discusses details of training some of these models and provides comprehensive evaluation results. We show that Reka Edge and Reka Flash are not only state-of-the-art but also outperform many much larger models, delivering outsized values for their respective compute class. Meanwhile, our most capable and largest model, Reka Core, approaches the best frontier models on both automatic evaluations and blind human evaluations. On image question answering benchmarks (e.g. MMMU, VQAv2), Core performs competitively to GPT4-V. Meanwhile, on multimodal chat, Core ranks as the second most preferred model under a blind third-party human evaluation setup, outperforming other models such as Claude 3 Opus. On text benchmarks, Core not only performs competitively to other frontier models on a set of well-established benchmarks (e.g. MMLU, GSM8K) but also outperforms GPT4-0613 on human evaluation. On video question answering (Perception-Test), Core outperforms Gemini Ultra. Models are shipped in production at http://chat.reka.ai . A showcase of non cherry picked qualitative examples can also be found at http://showcase.reka.ai .

Published
2024

9. Effective multiband synthetic four-wave mixing by cascading quadratic processes

Author

Chen, Li, Ge, Zheng, Niu, Su-Jian, Li, Yin-Hai, Han, Zhao-Qi-Zhi, Song, Yue-Wei, Li, Wu-Zhen, Chen, Ren-Hui, Gao, Ming-Yuan, Xie, Meng-Yu, Zhou, Zhi-Yuan, and Shi, Bao-Sen

Subjects
Physics - Optics
Abstract

Four wave mixing (FWM) is an important way to generate supercontinuum and frequency combs in the mid-infrared band. Here, we obtain simultaneous synthetic FWM in the visible and mid-infrared bands by cascading quadratic nonlinear processes in a periodically poled lithium niobate crystal (PPLN), which has a 110dB(at 3000nm) higher conversion efficiency than the FWM directly generated by third-order susceptibilities in bulk PPLN crystals. A general model of this process is developed that is in full agreement with the experimental verifications. The frequency difference between the new frequency components can be freely tuned by changing the frequency difference of the dual pump lasers. Furthermore, by increasing the conversion bandwidth and efficiency of the cascaded processes, it is feasible to generate frequency combs in three bands the visible, near-infrared and mid-infrared bands simultaneously through high-order cascaded processes. This work opens up a new avenue toward free-tuning multiband frequency comb generation with multi-octaves frequency spanning, which will have significant applications in fields such as mid-infrared gas sensing, lidar and precision spectroscopy.

Published
2024

10. Quantum entanglement enabled ellipsometer for phase retardance measurement

Author

Xie, Meng-Yu, Niu, Su-Jian, Li, Yin-Hai, Ge, Zheng, Gao, Ming-Yuan, Han, Zhao-Qi-Zhi, Chen, Ren-Hui, Zhou, Zhi-Yuan, and Shi, Bao-Sen

Subjects
Quantum Physics, Physics - Optics
Abstract

An ellipsometer is a vital precision tool used for measuring optical parameters with wide applications in many fields, including accurate measurements in film thickness, optical constants, structural profiles, etc. However, the precise measurement of photosensitive materials meets huge obstacles because of the excessive input photons, therefore the requirement of enhancing detection accuracy under low incident light intensity is an essential topic in the precision measurement. In this work, by combining a polarization-entangled photon source with a classical transmission-type ellipsometer, the quantum ellipsometer with the PSA (Polarizer-Sample-Analyzer) and the Senarmount method is constructed firstly to measure the phase retardation of the birefringent materials. The experimental results show that the accuracy can reach to nanometer scale at extremely low input intensity, and the stability are within 1% for all specimens tested with a compensator involved. Our work paves the way for precision measurement at low incident light intensity, with potential applications in measuring photosensitive materials, active-biological samples and other remote monitoring scenarios., Comment: 13 pages, 5 figures. This work has been submitted for possible publication

Published
2024

11. Reinforcement Learning for Patient Scheduling with Combinatorial Optimisation

Author

Liu, Xi, Zheng, Changgang, Chen, Zhen, Liao, Yong, Chen, Ren, Yang, Shufan, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Bramer, Max, editor, and Stahl, Frederic, editor

Published
2025
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12. Experimental Study of Soil Arching Effect in Compacted Clay at Unsaturated State

Author

Fu, Xiang-Shen, Chen, Ren-Peng, Wang, Han-Lin, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Rujikiatkamjorn, Cholachat, editor, Xue, Jianfeng, editor, and Indraratna, Buddhima, editor

Published
2025
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22. LLM-Rec: Personalized Recommendation via Prompting Large Language Models

Author

Lyu, Hanjia, Jiang, Song, Zeng, Hanqing, Xia, Yinglong, Wang, Qifan, Zhang, Si, Chen, Ren, Leung, Christopher, Tang, Jiajie, and Luo, Jiebo

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

Text-based recommendation holds a wide range of practical applications due to its versatility, as textual descriptions can represent nearly any type of item. However, directly employing the original item descriptions may not yield optimal recommendation performance due to the lack of comprehensive information to align with user preferences. Recent advances in large language models (LLMs) have showcased their remarkable ability to harness commonsense knowledge and reasoning. In this study, we introduce a novel approach, coined LLM-Rec, which incorporates four distinct prompting strategies of text enrichment for improving personalized text-based recommendations. Our empirical experiments reveal that using LLM-augmented text significantly enhances recommendation quality. Even basic MLP (Multi-Layer Perceptron) models achieve comparable or even better results than complex content-based methods. Notably, the success of LLM-Rec lies in its prompting strategies, which effectively tap into the language model's comprehension of both general and specific item characteristics. This highlights the importance of employing diverse prompts and input augmentation techniques to boost the recommendation effectiveness of LLMs.

Published
2023

28. Stability of Accumulation of Granular Columns Based on Chaos Optimization Algorithm

Author

Huang, Yan, Liu, Yan, Chen, Ren, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Swaroop, Abhishek, editor, Kansal, Vineet, editor, Fortino, Giancarlo, editor, and Hassanien, Aboul Ella, editor

Published
2024
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29. Modeling and Simulation Analysis of Dual-Rotor System in the Early Stage of Bearing Pedestal Looseness

Author

Wang, Cai, Tian, Jing, Ai, Yan-ting, Zhang, Feng-ling, Wang, Zhi, Chen, Ren-zhen, Ceccarelli, Marco, Series Editor, Agrawal, Sunil K., Advisory Editor, Corves, Burkhard, Advisory Editor, Glazunov, Victor, Advisory Editor, Hernández, Alfonso, Advisory Editor, Huang, Tian, Advisory Editor, Jauregui Correa, Juan Carlos, Advisory Editor, Takeda, Yukio, Advisory Editor, Chu, Fulei, editor, and Qin, Zhaoye, editor

Published
2024
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48. Crystal structure of (5aS,6aS,8aR,9R,11aS, 11bS,13R,13aS)-1,1,8a,11a-tetramethyl-9-((S)-1-((S)-5-methyl-6-oxo-3,6-dihydro-2H-pyran-2-yl)ethyl)-3-oxo-1,7,8,8a,9,10,11,11a,11b,12,13,13a-dodecahydro-3H,6H-cyclopenta[5,6]cyclopropa[1,8a]naphtho[2,1-c]oxepin-13-yl acetate, C32H44O6

Author

Jian Cheng-Hong, Chen Ren-Song, Zhang Jie-Jing, Zhao Chen-Liang, Zhao Neng-Wu, and Ye Jiang-Hai

Subjects
2294349, Physics, QC1-999, Crystallography, QD901-999
Abstract

C32H44O6, monoclinic, P21 (no. 4), a = 12.2561 Å, b = 10.3674(4) Å, c = 23.3835(8) Å, β = 98.463°, V = 2938.85(19) Å3, Z = 2, Rgt(F) = 0.0602, wRref(F2) = 0.1537, T = 273(2) K.

Published
2024
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49. Decoupling the Depth and Scope of Graph Neural Networks

Author

Zeng, Hanqing, Zhang, Muhan, Xia, Yinglong, Srivastava, Ajitesh, Malevich, Andrey, Kannan, Rajgopal, Prasanna, Viktor, Jin, Long, and Chen, Ren

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

State-of-the-art Graph Neural Networks (GNNs) have limited scalability with respect to the graph and model sizes. On large graphs, increasing the model depth often means exponential expansion of the scope (i.e., receptive field). Beyond just a few layers, two fundamental challenges emerge: 1. degraded expressivity due to oversmoothing, and 2. expensive computation due to neighborhood explosion. We propose a design principle to decouple the depth and scope of GNNs -- to generate representation of a target entity (i.e., a node or an edge), we first extract a localized subgraph as the bounded-size scope, and then apply a GNN of arbitrary depth on top of the subgraph. A properly extracted subgraph consists of a small number of critical neighbors, while excluding irrelevant ones. The GNN, no matter how deep it is, smooths the local neighborhood into informative representation rather than oversmoothing the global graph into "white noise". Theoretically, decoupling improves the GNN expressive power from the perspectives of graph signal processing (GCN), function approximation (GraphSAGE) and topological learning (GIN). Empirically, on seven graphs (with up to 110M nodes) and six backbone GNN architectures, our design achieves significant accuracy improvement with orders of magnitude reduction in computation and hardware cost., Comment: Accepted to NeurIPS 2021

Published
2022

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