Search

Your search keyword '"Lin, Hai"' showing total 14,012 results
Start Over Author "Lin, Hai"

Refine your results

more »

more »

more »

more »

more »
14,012 results on '"Lin, Hai"'

1. Inventory Consensus Control in Supply Chain Networks using Dissipativity-Based Control and Topology Co-Design

Author

Welikala, Shirantha, Lin, Hai, and Antsaklis, Panos J.

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Recent global and local phenomena have exposed vulnerabilities in critical supply chain networks (SCNs), drawing significant attention from researchers across various fields. Typically, SCNs are viewed as static entities regularly optimized to maintain their optimal operation. However, the dynamic nature of SCNs and their associated uncertainties have motivated researchers to treat SCNs as dynamic networked systems requiring robust control techniques. In this paper, we address the SCN inventory consensus problem, which aims to synchronize multiple parallel supply chains, enhancing coordination and robustness of the overall SCN. To achieve this, we take a novel approach exploiting dissipativity theory. In particular, we propose a dissipativity-based co-design strategy for distributed consensus controllers and communication topology in SCNs. It requires only the dissipativity information of the individual supply chains and involves solving a set of convex optimization problems, thus contributing to scalability, compositionality, and computational efficiency. Moreover, it optimizes the robustness of the SCN to various associated uncertainties, mitigating both bullwhip and ripple effects. We demonstrate our contributions using numerical examples, mainly by comparing the consensus performance with respect to standard steady-state control, feedback control, and consensus control strategies., Comment: Submitted to IEEE Transactions on Systems, Man, and Cybernetics: Systems, 2025

Published
2025

2. A Dual-Polarization Feature Fusion Network for Radar Automatic Target Recognition Based On HRRP Sequence

Author

Zhou, Yangbo, Liu, Sen, Gao, Hong-Wei, lin, Hai, Wei, Guohua, Wang, Xiaoqing, and Pan, Xiao-Min

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Recent advances in radar automatic target recognition (RATR) techniques utilizing deep neural networks have demonstrated remarkable performance, largely due to their robust generalization capabilities. To address the challenge for applications with polarimetric HRRP sequences, a dual-polarization feature fusion network (DPFFN) is proposed along with a novel two-stage feature fusion strategy. Moreover, a specific fusion loss function is developed, which enables the adaptive generation of comprehensive multi-modal representations from polarimetric HRRP sequences. Experimental results demonstrate that the proposed network significantly improves performance in radar target recognition tasks, thus validating its effectiveness. The PyTorch implementation of our proposed DPFFN is available at https://github.com/xmpan/DPFFN.

Published
2025

3. Exploring nontrivial topology at quantum criticality in a superconducting processor

Author

Tan, Ziqi, Wang, Ke, Yang, Sheng, Shen, Fanhao, Jin, Feitong, Zhu, Xuhao, Ji, Yujie, Xu, Shibo, Chen, Jiachen, Wu, Yaozu, Zhang, Chuanyu, Gao, Yu, Wang, Ning, Zou, Yiren, Zhang, Aosai, Li, Tingting, Bao, Zehang, Zhu, Zitian, Zhong, Jiarun, Cui, Zhengyi, Han, Yihang, He, Yiyang, Wang, Han, Yang, Jianan, Wang, Yanzhe, Shen, Jiayuan, Liu, Gongyu, Song, Zixuan, Deng, Jinfeng, Dong, Hang, Zhang, Pengfei, Jian, Shao-Kai, Li, Hekang, Wang, Zhen, Guo, Qiujiang, Song, Chao, Yu, Xue-Jia, Wang, H., Lin, Hai-Qing, and Wu, Fei

Subjects
Quantum Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

The discovery of nontrivial topology in quantum critical states has introduced a new paradigm for classifying quantum phase transitions and challenges the conventional belief that topological phases are typically associated with a bulk energy gap. However, realizing and characterizing such topologically nontrivial quantum critical states with large particle numbers remains an outstanding experimental challenge in statistical and condensed matter physics. Programmable quantum processors can directly prepare and manipulate exotic quantum many-body states, offering a powerful path for exploring the physics behind these states. Here, we present an experimental exploration of the critical cluster Ising model by preparing its low-lying critical states on a superconducting processor with up to $100$ qubits. We develop an efficient method to probe the boundary $g$-function based on prepared low-energy states, which allows us to uniquely identify the nontrivial topology of the critical systems under study. Furthermore, by adapting the entanglement Hamiltonian tomography technique, we recognize two-fold topological degeneracy in the entanglement spectrum under periodic boundary condition, experimentally verifying the universal bulk-boundary correspondence in topological critical systems. Our results demonstrate the low-lying critical states as useful quantum resources for investigating the interplay between topology and quantum criticality.

Published
2025

4. Gapless Symmetry-Protected Topological States in Measurement-Only Circuits

Author

Yu, Xue-Jia, Yang, Sheng, Liu, Shuo, Lin, Hai-Qing, and Jian, Shao-Kai

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Statistical Mechanics, Quantum Physics
Abstract

Measurement-only quantum circuits offer a versatile platform for realizing intriguing quantum phases of matter. However, gapless symmetry-protected topological (gSPT) states remain insufficiently explored in these settings. In this Letter, we generalize the notion of gSPT to the critical steady state by investigating measurement-only circuits. Using large-scale Clifford circuit simulations, we investigate the steady-state phase diagram across several families of measurement-only circuits that exhibit topological nontrivial edge states at criticality. In the Ising cluster circuits, we uncover a symmetry-enriched non-unitary critical point, termed symmetry-enriched percolation, characterized by both topologically nontrivial edge states and string operator. Additionally, we demonstrate the realization of a steady-state gSPT phase in a $\mathbb Z_4$ circuit model. This phase features topological edge modes and persists within steady-state critical phases under symmetry-preserving perturbations. Furthermore, we provide a unified theoretical framework by mapping the system to the Majorana loop model, offering deeper insights into the underlying mechanisms., Comment: 5.5 pages with supplemental materials, 16 figures

Published
2025

5. Quantifying the memory and dynamical stability of magnetar bursts

Author

Sang, Yu and Lin, Hai-Nan

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

The time series of energy and waiting time of magnetar bursts carry important information about the source activity. In this paper, we investigate the memory and dynamical stability of magnetar bursts from four soft gamma repeater (SGR) sources: SGR 1806$-$20, SGR 1900+14, SGR J1935+2154 and SGR J1550$-$5418. Based on the rescaled range analysis, we quantify the memory in magnetar bursts for the first time and find that there exists long-term memory in the time series of both waiting time and energy. We investigate the dynamical stability in the context of randomness and chaos. For all the four SGR samples, we find that the waiting time is not completely random, but the energy of two SGRs is consistent with a total random organization. Furthermore, both waiting time and energy exhibits weak chaos. We also find no significant difference between SGRs and repeating fast radio bursts (FRBs) in the randomness-chaos phase space. The statistical similarity between SGRs and repeating FRBs hints that there may be potential physical connection between these two phenomena., Comment: 10 pages, 5 figures, 4 tables. Accepted by Chinese Physics C

Published
2024

6. An Advantage-based Optimization Method for Reinforcement Learning in Large Action Space

Author

Lin, Hai, Huang, Cheng, and Chen, Zhihong

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

Reinforcement learning tasks in real-world scenarios often involve large, high-dimensional action spaces, leading to challenges such as convergence difficulties, instability, and high computational complexity. It is widely acknowledged that traditional value-based reinforcement learning algorithms struggle to address these issues effectively. A prevalent approach involves generating independent sub-actions within each dimension of the action space. However, this method introduces bias, hindering the learning of optimal policies. In this paper, we propose an advantage-based optimization method and an algorithm named Advantage Branching Dueling Q-network (ABQ). ABQ incorporates a baseline mechanism to tune the action value of each dimension, leveraging the advantage relationship across different sub-actions. With this approach, the learned policy can be optimized for each dimension. Empirical results demonstrate that ABQ outperforms BDQ, achieving 3%, 171%, and 84% more cumulative rewards in HalfCheetah, Ant, and Humanoid environments, respectively. Furthermore, ABQ exhibits competitive performance when compared against two continuous action benchmark algorithms, DDPG and TD3.

Published
2024

7. On the Time-Frequency Localization Characteristics of the Delay-Doppler Plane Orthogonal Pulse

Author

Shafie, Akram, Yuan, Jinhong, Yang, Nan, and Lin, Hai

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

In this work, we study the time-frequency (TF) localization characteristics of the prototype pulse of orthogonal delay-Doppler (DD) division multiplexing modulation, namely, the DD plane orthogonal pulse (DDOP). The TF localization characteristics examine how concentrated or spread out the energy of a pulse is in the joint TF domain, the time domain (TD), and the frequency domain (FD). We first derive the TF localization metrics of the DDOP, including its TF area, its time and frequency dispersions, and its direction parameter. Based on these results, we demonstrate that the DDOP exhibits a high energy spread in the TD, FD, and the joint TF domain, while adhering to the Heisenberg uncertainty principle. Thereafter, we discuss the potential advantages brought by the energy spread of the DDOP, especially with regard to harnessing both time and frequency diversities and enabling fine-resolution sensing. Subsequently, we examine the relationships between the time and frequency dispersions of the DDOP and those of the envelope functions of DDOP's TD and FD representations, paving the way for simplified determination of the TF localization metrics for more generalized variants of the DDOP and the pulses used in other DD domain modulation schemes. Finally, using numerical results, we validate our analysis and find further insights., Comment: This paper has been accepted for publication in an IEEE Journal

Published
2024

8. Superradiant phase transitions in the quantum Rabi model: Overcoming the no-go theorem through anisotropy

Author

Ye, Tian, Wang, Yan-Zhi, Chen, Xiang-You, Chen, Qing-Hu, and Lin, Hai-Qing

Subjects
Quantum Physics
Abstract

Although the superradiant phase transition (SRPT) is prohibited in the paradigmatic quantum Rabi model due to the no-go theorem caused by the $\mathbf{A}$-square term, we demonstrate two distinct types of SRPTs emerging from the normal phase in the anisotropic quantum Rabi model. A discontinuous phase transition between the two types of superradiant phases also emerges in the presence of a strong $\mathbf{A}$-square term. Additionally, a rich phase diagram featuring a triple point, which connects first- and second-order phase transitions, is derived analytically and confirmed through numerical diagonalization at large effective system sizes. Finally, distinct critical behavior at the triple point is revealed and contrasted with that of a single continuous SRPT. This work may open a new avenue for observing SRPTs in their intrinsic form without altering the $\mathbf{A}$-square term, while also offering a practical platform for exploring rich quantum phenomena., Comment: 9pages, 4 figures

Published
2024

10. Back Cover

Author

Lin, Hai-yin, Ing, Nancy C., and Chi, Pang-yuan

Published
2019

12. 5. Donkey Rolls

Author

Lin, Hai-yin, Ing, Nancy C., and Chi, Pang-yuan

Published
2019

13. 4. Lan I-niang

Author

Lin, Hai-yin, Ing, Nancy C., and Chi, Pang-yuan

Published
2019

15. 2. Hui-an Hostel

Author

Lin, Hai-yin, Ing, Nancy C., and Chi, Pang-yuan

Published
2019

17. Table of Contents

Author

Lin, Hai-yin, Ing, Nancy C., and Chi, Pang-yuan

Published
2019

18. Introduction

Author

Lin, Hai-yin, Ing, Nancy C., and Chi, Pang-yuan

Published
2019

20. Assessing data-driven predictions of band gap and electrical conductivity for transparent conducting materials

Author

Ottomano, Federico, Goulermas, John Y., Gusev, Vladimir, Savani, Rahul, Gaultois, Michael W., Manning, Troy D., Lin, Hai, Manzanera, Teresa P., Poole, Emmeline G., Dyer, Matthew S., Claridge, John B., Alaria, Jon, Daniels, Luke M., Varma, Su, Rimmer, David, Sanderson, Kevin, and Rosseinsky, Matthew J.

Subjects
Condensed Matter - Materials Science, Computer Science - Machine Learning
Abstract

Machine Learning (ML) has offered innovative perspectives for accelerating the discovery of new functional materials, leveraging the increasing availability of material databases. Despite the promising advances, data-driven methods face constraints imposed by the quantity and quality of available data. Moreover, ML is often employed in tandem with simulated datasets originating from density functional theory (DFT), and assessed through in-sample evaluation schemes. This scenario raises questions about the practical utility of ML in uncovering new and significant material classes for industrial applications. Here, we propose a data-driven framework aimed at accelerating the discovery of new transparent conducting materials (TCMs), an important category of semiconductors with a wide range of applications. To mitigate the shortage of available data, we create and validate unique experimental databases, comprising several examples of existing TCMs. We assess state-of-the-art (SOTA) ML models for property prediction from the stoichiometry alone. We propose a bespoke evaluation scheme to provide empirical evidence on the ability of ML to uncover new, previously unseen materials of interest. We test our approach on a list of 55 compositions containing typical elements of known TCMs. Although our study indicates that ML tends to identify new TCMs compositionally similar to those in the training data, we empirically demonstrate that it can highlight material candidates that may have been previously overlooked, offering a systematic approach to identify materials that are likely to display TCMs characteristics.

Published
2024

21. Performance of orthogonal delay-doppler division multiplexing modulation with imperfect channel estimation

Author

Huang, Kehan, Qiu, Min, Tong, Jun, Yuan, Jinhong, and Lin, Hai

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

The orthogonal delay-Doppler division multiplexing (ODDM) modulation is a recently proposed multi-carrier modulation that features a realizable pulse orthogonal with respect to the delay-Doppler (DD) plane's fine resolutions. In this paper, we investigate the performance of ODDM systems with imperfect channel estimation considering three detectors, namely the message passing algorithm (MPA) detector, iterative maximum-ratio combining (MRC) detector, and successive interference cancellation with minimum mean square error (SIC-MMSE) detector. We derive the post-equalization signal-to-interference-plus-noise ratio (SINR) for MRC and SIC-MMSE and analyze their bit error rate (BER) performance. Based on this analysis, we propose the MRC with subtractive dither (MRC-SD) and soft SIC-MMSE initialized MRC (SSMI-MRC) detector to improve the BER of iterative MRC. Our results demonstrate that soft SIC-MMSE consistently outperforms the other detectors in BER performance under perfect and imperfect CSI. While MRC exhibits a BER floor above $10^{-5}$, MRC-SD effectively lowers the BER with a negligible increase in detection complexity. SSMI-MRC achieves better BER than hard SIC-MMSE with the same detection complexity order. Additionally, we show that MPA has an error floor and is sensitive to imperfect CSI.

Published
2024

22. The cosmic distance duality relation in light of the time-delayed strong gravitational lensing

Author

Tang, Li, Lin, Hai-Nan, and Wu, Ying

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

The cosmic distance duality relation (DDR), which links the angular diameter distance and the luminosity distance, is a cornerstone in modern cosmology. Any deviation from DDR may indicate new physics beyond the standard cosmological model. In this paper, we use four high-precision time-delayed strong gravitational lensing (SGL) systems provided by the H0LiCOW to test the validity of DDR. To this end, we directly compare the angular diameter distances from these SGL systems and the luminosity distances from the latest Pantheon+ compilation of SNe Ia. In order to reduce the statistical errors arising from redshift matching, the Gaussian process method is applied to reconstruct the distance-redshift relation from the Pantheon+ dataset. We parameterize the possible violation of DDR in three different models. It is found that all results confirm the validity of DDR at 1$\sigma$ confidence level. Additionally, Monte Carlo simulations based on the future LSST survey indicate that the precision of DDR could reach $10^{-2}$ level with 100 SGL systems., Comment: 11 pages, 6 figures

Published
2024
Full Text
View/download PDF

23. Orbifold ETW brane and half-indices

Author

Hatsuda, Yasuyuki, Lin, Hai, and Okazaki, Tadashi

Subjects
High Energy Physics - Theory
Abstract

We study the half-indices of $\mathcal{N}=4$ super Yang-Mills theories of orthogonal and symplectic gauge groups. We find precise matching pairs of the half-indices as strong evidence of dualities of the half-BPS boundary conditions and interfaces. The half-indices encode the spectra of excitations on the holographically dual orbifold ETW brane and giant gravitons. The exact form of the index for the orbifold ETW giant gravitons is obtained from the giant graviton expansion of the half-index., Comment: 52 pages, 8 figures

Published
2024

24. IRSC: A Zero-shot Evaluation Benchmark for Information Retrieval through Semantic Comprehension in Retrieval-Augmented Generation Scenarios

Author

Lin, Hai, Zhan, Shaoxiong, Su, Junyou, Zheng, Haitao, and Wang, Hui

Subjects
Computer Science - Information Retrieval, Computer Science - Artificial Intelligence
Abstract

In Retrieval-Augmented Generation (RAG) tasks using Large Language Models (LLMs), the quality of retrieved information is critical to the final output. This paper introduces the IRSC benchmark for evaluating the performance of embedding models in multilingual RAG tasks. The benchmark encompasses five retrieval tasks: query retrieval, title retrieval, part-of-paragraph retrieval, keyword retrieval, and summary retrieval. Our research addresses the current lack of comprehensive testing and effective comparison methods for embedding models in RAG scenarios. We introduced new metrics: the Similarity of Semantic Comprehension Index (SSCI) and the Retrieval Capability Contest Index (RCCI), and evaluated models such as Snowflake-Arctic, BGE, GTE, and M3E. Our contributions include: 1) the IRSC benchmark, 2) the SSCI and RCCI metrics, and 3) insights into the cross-lingual limitations of embedding models. The IRSC benchmark aims to enhance the understanding and development of accurate retrieval systems in RAG tasks. All code and datasets are available at: https://github.com/Jasaxion/IRSC_Benchmark

Published
2024

25. Quantifying the randomness and scale invariance of the repeating fast radio bursts

Author

Sang, Yu and Lin, Hai-Nan

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

The statistical properties of energy and waiting time carry essential information about the source of repeating fast radio bursts (FRBs). In this paper, we investigate the randomness of energy and waiting time using four data samples from three extremely active repeating FRBs observed by the Five-hundred-meter Aperture Spherical radio Telescope (FAST). We report the deviation from complete randomness of the burst activity using three statistics, i.e., Hurst exponent, Pincus index and non-Gaussian probability density distribution of fluctuations. First, the Hurst exponent greater than 0.5 reveals that there is long-term memory in the time series of energy and waiting time. Second, the deviation of the Pincus index from 1.0 manifests that the time series is not completely random. Finally, the fluctuations of energy and waiting time follow the scale-invariant $q$-Gaussian distribution. All these statistical properties imply that, although the time series of repeating FRBs seems to be irregular, they are not completely random, similar to the features of self-organized criticality., Comment: 8 pages, 4 figures, 3 tables, accepted by MNRAS

Published
2024
Full Text
View/download PDF

26. Polarization-controlled non-Hermitian metasurfaces for ultra-sensitive terahertz sensing

Author

Shi, Xintong, Lin, Hai, Liu, Tingting, Shen, Yun, Tang, Rongxin, Li, Le, Zhang, Junyi, Wu, Yanjie, Duan, Shouxin, Zhao, Chenhui, and Xiao, Shuyuan

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Non-Hermitian systems offer significant advantages in sensor design, especially at the exceptional points. However, the extreme sensitivity near these points poses great challenges due to fabrication errors and system noises, which degrade sensing performance. To address this, we introduce a novel approach leveraging the polarization degrees of freedom in non-Hermitian systems. In this work, we establish a direct relation between the incident polarization and the transmission phase of a coupled metasurface system and achieve the polarization-controlled phase singularity even post-fabrication. The incident polarization angle can be utilized as a sensing index, which enables indirect and accurate measurement. The theoretical approach is experimentally validated using a general design of THz non-Hermitian metasurface sensors. Our method enhances robustness and sensitivity, opening new avenues for practical applications in ultra-sensitive sensing., Comment: 18 pages, 4 figures, 2 tables

Published
2024

27. QAEA-DR: A Unified Text Augmentation Framework for Dense Retrieval

Author

Tan, Hongming, Zhan, Shaoxiong, Lin, Hai, Zheng, Hai-Tao, Kin, Wai, and Chan

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

In dense retrieval, embedding long texts into dense vectors can result in information loss, leading to inaccurate query-text matching. Additionally, low-quality texts with excessive noise or sparse key information are unlikely to align well with relevant queries. Recent studies mainly focus on improving the sentence embedding model or retrieval process. In this work, we introduce a novel text augmentation framework for dense retrieval. This framework transforms raw documents into information-dense text formats, which supplement the original texts to effectively address the aforementioned issues without modifying embedding or retrieval methodologies. Two text representations are generated via large language models (LLMs) zero-shot prompting: question-answer pairs and element-driven events. We term this approach QAEA-DR: unifying question-answer generation and event extraction in a text augmentation framework for dense retrieval. To further enhance the quality of generated texts, a scoring-based evaluation and regeneration mechanism is introduced in LLM prompting. Our QAEA-DR model has a positive impact on dense retrieval, supported by both theoretical analysis and empirical experiments.

Published
2024

28. Time delay of fast radio burst population with respect to the star formation history

Author

Lin, Hai-Nan, Li, Xin-Yi, and Zou, Rui

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

In spite of significant progress in the research of fast radio bursts (FRBs) in recent decade, their origin is still under extensive debate. Investigation on the population of FRBs can provide new insight into this interesting problem. In this paper, based on the first CHIME/FRB catalog, we construct a Bayesian framework to analyze the FRB population, with the selection effect of the CHIME telescope being properly taken into account. The energy function is modeled as the power-law with an exponential cutoff. Four redshift distribution models are considered, i.e., the star formation history (SFH) model, and three time-delayed models (Gaussian delay, log-normal delay, and power-law delay). The free parameters are simultaneously constrained using Bayesian inference method, and the Bayesian information criterion (BIC) is used in model comparison. According to BIC, the log-normal delay model fits the data best. The power-law delay model and Gaussian delay model can also give reasonable fits, although they are not as good as the log-normal delay model. However, the SFH model is strongly disfavored compared with the three time-delayed models. The energy function is tightly constrained and is almost independent of the redshift models, with the best-fitting power-law index $\alpha\approx 1.8$, and cut-off energy $\log(E_c/{\rm erg})\approx 42$. The FRB population shows on average $3\sim 5$ billion years time delay with respect to the SFH. Therefore, the hypothesis that the FRB population traces the SFH is conclusively ruled out., Comment: 12 pages, 2 figures, 2 tables. Accepted by Astrophysical Journal

Published
2024

29. Gifts from long-range interaction: Emergent gapless topological behaviors in quantum spin chain

Author

Yang, Sheng, Lin, Hai-Qing, and Yu, Xue-Jia

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Quantum Gases, Condensed Matter - Statistical Mechanics, Quantum Physics
Abstract

Topology in condensed matter physics is typically associated with a bulk energy gap. However, recent research has shifted focus to topological phases without a bulk energy gap, exhibiting nontrivial gapless topological behaviors. In this letter, we explore a cluster Ising chain with long-range antiferromagnetic interactions that decay as a power law with the distance. Using complementary numerical and analytical techniques, we demonstrate that long-range interactions can unambiguously induce an algebraic topological phase and a topological Gaussian universality, both of which exhibit nontrivial gapless topological behaviors. Our study not only provides a platform to investigate the fundamental physics of quantum many-body systems but also offers a novel route toward searching for gapless topological phases in realistic quantum simulators., Comment: 4.1pages with supplemental materials, 15 figures. Any comments or suggestions are welcome !

Published
2024
Full Text
View/download PDF

34. Phase Transitions in the Anisotropic Dicke-Stark Model with $A$-square terms

Author

Chen, Xiang-You, Zhang, Yu-Yu, Chen, Qing-Hu, and Lin, Hai-Qing

Subjects
Quantum Physics
Abstract

The superradiant phase transition (SRPT) is forbidden in the standard isotropic Dicke model due to the so-called no-go theorem induced by A-square term. In the framework of the Dicke model, we demonstrate that SRPTs can occur at both zero and finite temperatures if we intrinsically tune the rotating wave and count-rotating atom-cavity coupling independently, and/or introduce the nonlinear Stark coupling terms, thus overcoming the no-go theorem. The phase transitions in this so-called anisotropic Dicke-Stark model share the same universality class with the original Dicke model. The critical coupling strength of this model decreases with the isotropic constant gradually, but can be driven to zero quickly with the strong nonlinear Stark coupling. We believe that we have proposed a feasible scheme to observe the SRPT in the future solid-state experiments., Comment: 6 pages, 6 figures

Published
2024
Full Text
View/download PDF

35. Giant graviton expansions and ETW brane

Author

Hatsuda, Yasuyuki, Lin, Hai, and Okazaki, Tadashi

Subjects
High Energy Physics - Theory
Abstract

We study the giant gravitons in the $AdS_4$ bagpipe geometries involving end-of-the-world (ETW) brane constructed by a single $5$-brane and either two stacks or one stack of D3-branes in Type IIB string theory. From the exact formulae and giant graviton expansions of the half-indices for the half-BPS boundary conditions and interfaces in $\mathcal{N}=4$ super Yang-Mills theory, we obtain the BPS spectra of the fluctuation modes of the $AdS_4$ bagpipe geometries including the ETW brane region., Comment: 38 pages, 2 figures, v2: published version in JHEP

Published
2024
Full Text
View/download PDF

36. Flat-Band Enhanced Antiferromagnetic Fluctuations and Superconductivity in Pressurized CsCr$_3$Sb$_5$

Author

Wu, Siqi, Xu, Chenchao, Wang, Xiaoqun, Lin, Hai-Qing, Cao, Chao, and Cao, Guang-Han

Subjects
Condensed Matter - Superconductivity
Abstract

The spin dynamics and electronic orders of the kagome system at different filling levels stand as an intriguing subject in condensed matter physics. By first-principles calculations and random phase approximation analyses, we investigate the spin fluctuations and superconducting instabilities in kagome phase of CsCr$_3$Sb$_5$ under high pressure. At the filling level slightly below the kagome flat bands, our calculations reveal strong antiferromagnetic spin fluctuations in CsCr$_3$Sb$_5$, together with a leading $s_{\pm}$-wave and a competing ($d_{xy}$, $d_{x^2-y^2}$)-wave superconducting order. Unlike the general intuition that the flat bands are closely related to the ferromagnetic correlations, here we propose a sublattice-momentum-coupling-driven mechanism for the antiferromagnetic fluctuations enhanced from the unoccupied flat bands. The mechanism is generally applicable to kagome systems where the Fermi level intersects near the flat bands, offering a new perspective for future studies of geometrically frustrated systems.

Published
2024
Full Text
View/download PDF

37. Ac$_3$Ni$_2$O$_7$ and La$_2$$Ae$Ni$_2$O$_6$F ($Ae$ = Sr, Ba): Benchmark Materials for Bilayer Nickelate Superconductivity

Author

Wu, Siqi, Yang, Zihan, Ma, Xin, Dai, Jianhui, Shi, Ming, Yuan, Hui-Qiu, Lin, Hai-Qing, and Cao, Chao

Subjects
Condensed Matter - Superconductivity
Abstract

We theoretically propose Ac$_3$Ni$_2$O$_7$, La$_2$BaNi$_2$O$_6$F, and La$_2$SrNi$_2$O$_6$F compounds to be benchmark materials for bilayer nickelate superconductivity. The stable phase of Ac$_3$Ni$_2$O$_7$ and La$_2$BaNi$_2$O$_6$F are found to be $I4/mmm$ without the lattice distortion caused by octahedra rotation at ambient pressure, where as the lattice distortion in La$_2$SrNi$_2$O$_6$F can be suppressed with relatively small external pressure of 4 GPa. The magnetism, electronic structure and spin susceptibilities of Ac$_3$Ni$_2$O$_7$ are extremely close to those of La$_3$Ni$_2$O$_7$ at 30 GPa. The ground state of La$_2$BaNi$_2$O$_6$F and La$_2$SrNi$_2$O$_6$F are antiferromagnetically coupled checkerboard bilayer with sizable magnetic moment on Ni. In addition, the inter-layer coupling $J_{\perp}$ between Ni-bilayers in La$_2$BaNi$_2$O$_6$F or La$_2$SrNi$_2$O$_6$F is only $\sim$ 1/10 of that in Ac$_3$Ni$_2$O$_7$ or La$_3$Ni$_2$O$_7$ at 30 GPa. We argue that these compounds may serve as superconducting candidates at ambient pressure and can be employed to testify theoretical proposals for bilayer nickelate superconductivity.

Published
2024

40. OpenFMNav: Towards Open-Set Zero-Shot Object Navigation via Vision-Language Foundation Models

Author

Kuang, Yuxuan, Lin, Hai, and Jiang, Meng

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

Object navigation (ObjectNav) requires an agent to navigate through unseen environments to find queried objects. Many previous methods attempted to solve this task by relying on supervised or reinforcement learning, where they are trained on limited household datasets with close-set objects. However, two key challenges are unsolved: understanding free-form natural language instructions that demand open-set objects, and generalizing to new environments in a zero-shot manner. Aiming to solve the two challenges, in this paper, we propose OpenFMNav, an Open-set Foundation Model based framework for zero-shot object Navigation. We first unleash the reasoning abilities of large language models (LLMs) to extract proposed objects from natural language instructions that meet the user's demand. We then leverage the generalizability of large vision language models (VLMs) to actively discover and detect candidate objects from the scene, building a Versatile Semantic Score Map (VSSM). Then, by conducting common sense reasoning on VSSM, our method can perform effective language-guided exploration and exploitation of the scene and finally reach the goal. By leveraging the reasoning and generalizing abilities of foundation models, our method can understand free-form human instructions and perform effective open-set zero-shot navigation in diverse environments. Extensive experiments on the HM3D ObjectNav benchmark show that our method surpasses all the strong baselines on all metrics, proving our method's effectiveness. Furthermore, we perform real robot demonstrations to validate our method's open-set-ness and generalizability to real-world environments., Comment: NAACL 2024 Findings

Published
2024

41. Low-lying excited states quantum entanglement and continuous quantum phase transitions: The criticality of a one-dimensional deconfined critical point

Author

Li, Yan-Chao, Zhou, Yuan-Hang, Zhang, Yuan, and Lin, Hai-Qing

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

From the perspective of low-lying excited states, we study the deconfined quantum critical point (DQCP) in a one-dimensional quantum spin chain by means of the entanglement entropy and fidelity. Our results show that there is a close connection between the reconstruction of low-lying excitation spectra and the DQCP. The precise position of the critical point and its continuous nature is indicated by the singular behavior of the entanglement and fidelity of the first-excited state. Furthermore, compared with the Berezinskii-Kosterlitz-Thouless type phase transitions, which also go beyond the scope of Landau-Ginzburg-Wilson paradigm, we attempt to reveal the essence of different types of symmetries on both sides of the DQPT from different manifestations of entanglement singularity.

Published
2024

42. Universal entanglement spectrum in gapless symmetry protected topological states

Author

Yu, Xue-Jia, Yang, Sheng, Lin, Hai-Qing, and Jian, Shao-Kai

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Statistical Mechanics, High Energy Physics - Theory
Abstract

Quantum entanglement marks a definitive feature of topological states. However, the entanglement spectrum remains insufficiently explored for topological states without a bulk energy gap. Using a combination of field theory and numerical techniques, we accurately calculate and analyze the entanglement spectrum of gapless symmetry protected topological states in one dimension. We highlight that the universal entanglement spectrum not only encodes the nontrivial edge degeneracy, generalizing the Li-Haldane conjecture to gapless topological states, but also contains the operator content of the underlying boundary conformal field theory. This implies that the bulk wave function can act as a fingerprint of both quantum criticality and topology in gapless symmetry protected topological states. We also identify a symmetry enriched conformal boundary condition that goes beyond the conventional conformal boundary condition., Comment: 4.5 pages with supplemental materials, 10 figures

Published
2024
Full Text
View/download PDF

43. PlantoGraphy: Incorporating Iterative Design Process into Generative Artificial Intelligence for Landscape Rendering

Author

Huang, Rong, Lin, Hai-Chuan, Chen, Chuanzhang, Zhang, Kang, and Zeng, Wei

Subjects
Computer Science - Human-Computer Interaction, H.5.2
Abstract

Landscape renderings are realistic images of landscape sites, allowing stakeholders to perceive better and evaluate design ideas. While recent advances in Generative Artificial Intelligence (GAI) enable automated generation of landscape renderings, the end-to-end methods are not compatible with common design processes, leading to insufficient alignment with design idealizations and limited cohesion of iterative landscape design. Informed by a formative study for comprehending design requirements, we present PlantoGraphy, an iterative design system that allows for interactive configuration of GAI models to accommodate human-centered design practice. A two-stage pipeline is incorporated: first, concretization module transforms conceptual ideas into concrete scene layouts with a domain-oriented large language model; and second, illustration module converts scene layouts into realistic landscape renderings using a fine-tuned low-rank adaptation diffusion model. PlantoGraphy has undergone a series of performance evaluations and user studies, demonstrating its effectiveness in landscape rendering generation and the high recognition of its interactive functionality., Comment: 27 pages, 14 figures, The ACM CHI 2024 conference

Published
2024
Full Text
View/download PDF

44. Optimal Control of a Stochastic Power System -- Algorithms and Mathematical Analysis

Author

Wang, Zhen, Xi, Kaihua, Cheng, Aijie, Lin, Hai Xiang, and van Schuppen, Jan H.

Subjects
Mathematics - Optimization and Control, Electrical Engineering and Systems Science - Systems and Control, 93E20, 90C30, and 90C26
Abstract

The considered optimal control problem of a stochastic power system, is to select the set of power supply vectors which infimizes the probability that the phase-angle differences of any power flow of the network, endangers the transient stability of the power system by leaving a critical subset. The set of control laws is restricted to be a periodically recomputed set of fixed power supply vectors based on predictions of power demand for the next short horizon. Neither state feedback nor output feedback is used. The associated control objective function is Lipschitz continuous, nondifferentiable, and nonconvex. The results of the paper include that a minimum exists in the value range of the control objective function. Furthermore, it includes a two-step procedure to compute an approximate minimizer based on two key methods: (1) a projected generalized subgradient method for computing an initial vector, and (2) a steepest descent method for approximating a local minimizer. Finally, it includes two convergence theorems that an approximation sequence converges to a local minimum., Comment: 24 pages, 2 figures

Published
2024

45. Diagnosing $SO(5)$ Symmetry and First-Order Transition in the $J-Q_3$ Model via Entanglement Entropy

Author

Deng, Zehui, Liu, Lu, Guo, Wenan, and Lin, Hai-qing

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We study the scaling behavior of the R\'enyi entanglement entropy with smooth boundaries at the phase transition point of the two-dimensional $J-Q_3$ model. Using the recently developed scaling formula [Deng {\it et al.}, Phys. Rev. B {\textbf{108}, 125144 (2023)}], we find a subleading logarithmic term with a coefficient showing that the number of Goldstone modes is four, indicating the existence of the spontaneous symmetry breaking from an emergent $SO(5)$ to $O(4)$ in the thermodynamic limit, but restored in a finite size. This result shows that the believed deconfined quantum critical point of the $J-Q_{3}$ model is a weak first-order transition point. Our work provides a new way to distinguish a state with spontaneously broken continuous symmetry from a critical state. The method is particularly useful in identifying weak first-order phase transitions, which are hard to determine using conventional methods., Comment: 9 pages, 10 figures

Published
2024
Full Text
View/download PDF

46. AAT: Adapting Audio Transformer for Various Acoustics Recognition Tasks

Author

Liang, Yun, Lin, Hai, Qiu, Shaojian, and Zhang, Yihang

Subjects
Computer Science - Sound, Computer Science - Artificial Intelligence, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Recently, Transformers have been introduced into the field of acoustics recognition. They are pre-trained on large-scale datasets using methods such as supervised learning and semi-supervised learning, demonstrating robust generality--It fine-tunes easily to downstream tasks and shows more robust performance. However, the predominant fine-tuning method currently used is still full fine-tuning, which involves updating all parameters during training. This not only incurs significant memory usage and time costs but also compromises the model's generality. Other fine-tuning methods either struggle to address this issue or fail to achieve matching performance. Therefore, we conducted a comprehensive analysis of existing fine-tuning methods and proposed an efficient fine-tuning approach based on Adapter tuning, namely AAT. The core idea is to freeze the audio Transformer model and insert extra learnable Adapters, efficiently acquiring downstream task knowledge without compromising the model's original generality. Extensive experiments have shown that our method achieves performance comparable to or even superior to full fine-tuning while optimizing only 7.118% of the parameters. It also demonstrates superiority over other fine-tuning methods., Comment: Preprint version for ICASSP 2024, Korea

Published
2024

47. Interior analysis, stretched technique and bubbling geometries

Author

Jia, Qiuye and Lin, Hai

Subjects
High Energy Physics - Theory, General Relativity and Quantum Cosmology, Mathematical Physics, Quantum Physics
Abstract

We perform a detailed analysis of quarter BPS bubbling geometries with AdS asymptotics and their corresponding duality relations with their dual states in the quantum field theory side, among other aspects. We derive generalized Laplace-type equations with sources, obtained from linearized Monge-Ampere equations, and used for asymptotically AdS geometry. This enables us to obtain solutions specific to the asymptotically AdS context. We conduct a thorough analysis of boundary conditions and explore the stretched technique where boundary conditions are imposed on a stretched surface. These boundary conditions include grey droplets. This stretched technique is naturally used for the superstar, where we place grey droplet boundary conditions on the stretched surface. We also perform a coarse-graining of configurations and analyze the symplectic forms on the configuration space and their coarse-graining., Comment: 46 pages, latex. references added

Published
2023
Full Text
View/download PDF

48. Ultralight dark matter in neutrino oscillations to accommodate T2K and NO$\nu$A tension

Author

Lin, Hai-Xing, Tang, Jian, and Vihonen, Sampsa

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment
Abstract

Ultralight dark matter with neutrino couplings is investigated in light of the long-baseline neutrino oscillation data in T2K and NO$\nu$A experiments. The observed tension between T2K and NO$\nu$A is shown to be ameliorated when ultralight dark matter of either scalar or vector form is taken into consideration. The best result is achieved with scalar dark matter which can alleviate the tension by 2.0$\sigma$ CL with flavour-universal couplings. We also consider scalar dark matter with flavour-general couplings and vector dark matter in $L_e - L_\mu$ and $L_\mu - L_\tau$ cases. It is shown in all cases that the tension is relaxed by approximately 1.5$\sigma$-2.0$\sigma$ CL while the current experimental constraints can be evaded., Comment: 20 pages, 7 figures and 1 table

Published
2023

49. Dissipativity-Based Decentralized Co-Design of Distributed Controllers and Communication Topologies for Vehicular Platoons

Author

Welikala, Shirantha, Song, Zihao, Antsaklis, Panos J., and Lin, Hai

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Vehicular platoons provide an appealing option for future transportation systems. Most of the existing work on platoons separated the design of the controller and its communication topologies. However, it is beneficial to design both the platooning controller and the communication topology simultaneously, i.e., controller and topology co-design, especially in the cases of platoon splitting and merging. We are, therefore, motivated to propose a co-design framework for vehicular platoons that maintains both the compositionality of the controller and the string stability of the platoon, which enables the merging and splitting of the vehicles in a platoon. To this end, we first formulate the co-design problem as a centralized linear matrix inequality (LMI) problem and then decompose it using Sylvester's criterion to obtain a set of smaller decentralized LMI problems that can be solved sequentially at individual vehicles in the platoon. Moreover, in the formulated decentralized LMI problems, we encode a specifically derived local LMI to enforce the $L_2$ stability of the closed-loop platooning system, further implying the $L_2$ weak string stability of the vehicular platoon. Finally, to validate the proposed co-design method and its features in terms of merging/splitting, we provide an extensive collection of simulation results generated from a specifically developed simulation framework. Available in GitHub: HTTP://github.com/NDzsong2/Longitudinal-Vehicular-Platoon-Simulator.git that we have made publicly available., Comment: 16 pages, 14 figures, one manuscript has been submitted to Automatica

Published
2023

50. Protected Transverse Electric Waves in Topological Dielectric Waveguides

Author

Zhou, Rui, Chen, Minglin L. N., Shi, Xingtong, Ren, Yan, Yu, Zihao, Tian, Yu, Liu, Y., and Lin, Hai

Subjects
Physics - Applied Physics, Physics - Optics
Abstract

Waveguides are fundamental components in communication systems. However, they suffer from reflection and scattering losses at sharp routes or defects. The breakthrough in developing topological photonic crystals (PhCs) provides promising solutions to robust signal transmission. In this work, we propose a new mechanism for protecting wave-guiding modes by decorating the boundaries of a conventional waveguide with valley-Hall PhCs. This special layout enables the robust propagation of conventional transverse electric waves against defects and bends. Moreover, the proposed waveguide is compatible with the substrate integrated waveguide (SIW). High efficient mode conversion from the SIW to the proposed waveguide is achievable. By leveraging the idea of topology to conventional waveguides, we provide a powerful and practical tool that can largely improve the performance of microwave and millimeter-wave integrated circuits while reserving the features of wave-guiding modes., Comment: 5 figures

Published
2023

Catalog

Books, media, physical & digital resources
See catalog results