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1. Two-dimensional and high-order directional information modulations for secure communications based on programmable metasurface

Author

Hui Xu, Jun Wei Wu, Zheng Xing Wang, Rui Wen Shao, Han Qing Yang, and Tie Jun Cui

Subjects
Science
Abstract

Abstract Conventional wireless communication schemes indiscriminately transmit information into the whole space and pose inherent security risks. Recently, directional information modulation (DIM) has attracted enormous attention as a promising technology. DIM generates correct constellation symbols in the desired directions and distorts them in undesired directions, thus ensuring the security of the transmitted information. Although several DIM schemes have been reported, they suffer from defects of bulkiness, energy consumption, high cost, and inability to support two-dimensional (2D) and high-order modulations. Here, we propose a DIM scheme based on a 2-bit programmable metasurface (PM) that overcomes these defects. A fast and efficient discrete optimization algorithm is developed to optimize the digital coding sequences, and the correct constellation symbols can be generated and transmitted in multi-directional beams. As a proof-of-concept, three sets of constellation diagrams (8 phase shift keying (PSK), 16 quadrature amplitude modulation (QAM), and 64QAM) are realized in the multi-channel modes. This work provides an important route of employing DIM for ensuring physical-layer security and serves as a stepping stone toward endogenous secure communications.

Published
2024
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2. Exosome-hydrogels loaded with metal-organic framework improve skin aging by inhibiting oxidative stress

Author

Li Li-Jie, Han Qing-Ling, Feng Wen-Jie, Wang Zhan-Peng, and Li Hong-Hua

Subjects
ba(ii) compound, luminescence, hydrogels, exosome, skin aging, Chemistry, QD1-999
Abstract

Solvothermal reactions of Ba(NO3)2 with 1,3,5-benzenetricarboxylic acid gave rise to a new coordination polymer of [Ba6(BTC)4(H2O)9]}n (1 H3BTC = benzenetricarboxylic acid). The complex 1 was characterized soundly by Fourier transform infrared (FT-IR) spectroscopy, elemental analysis (EA), single-crystal X-ray diffraction (SCXRD), and thermogravimetric analysis (TGA). The framework of 1 has high thermal stability and shows intense luminescence at room temperature. Hyaluronic acid (HA) and carboxymethyl chitosan (CMCS) have good biocompatibility, based on the chemical synthesis method, the HA/CMCS hydrogel was prepared. With exosomes as drug models, we further synthesized novel exosome-loaded metal gel particles and evaluated their effects on oxidative stress in human dermal fibroblasts.

Published
2024
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3. An empirical approach for enhancing farmers' concentrated residence strategies: A case study in Jiangsu Province, China

Author

Han Qing, Zhongxing Guo, Rupesh Kumar, and Amit Kumar

Subjects
SWOT-AHP model, Delphi method, Concentrated farmers, Strategic choice, Rural revisitation, Urban–rural integration, Ecology, QH540-549.5
Abstract

The concentrated living of farmers is an important engine for rural revitalization and a new type of urbanization, thus is of great significance for the construction of a resource-saving society. Due to rapid economic development in China, some farmers have successfully urbanized through rural–urban migration, but still more than 500 million farmers, have not migrated yet. Concentrated residence has long been recognized as the best strategy to help Chinese farmers to achieve local urbanization, and has been paid much attention in the local, regional, national and global scientific community. Although robust models and policies are still lagging behind because of insufficient datasets and models. In this study, empirical model has been used in which concentrated residence cases of farmers in Yancheng City, Jiangsu Province of China taken as a case study, and strength (S), weakness (W), opportunities (O) and threats (T) as the criterion layer to identify 16 influencing factors as the index layer. For this study, data was collected during 2021 & 2022 by questioner-based survey from 6 different settlements, and AHP analytic hierarchy model integrated with SWOT was used to built farmers' concentrated residence strategies. The positioning coordinates of this study show the following weightage like S (0.480, 0), W (-0.098, 0), O (0, 0.306), and T (0, −0.116) which clearly mentions that S and O as positive influences, W and T as negative influences, and locates the respective total weights. Therefore, empirical results indicate that SO (growth-oriented) strategy should be emphasized to build robust strategies for concentrated residence of farmers. The findings of this study can provide a benign model for centralized residence for local governments, village collectives, and farmers withdrawing from homestead, and help to promote the sustainable development of society.

Published
2024
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4. The role of public-private partnerships in selling, general, and administrative cost stickiness

Author

Han Qing

Subjects
PPP, SG&A cost stickiness, government debt, supply Chain, Finance, HG1-9999, Economic theory. Demography, HB1-3840
Abstract

AbstractPublic-Private Partnerships (PPP) which promotes public welfare is greatly supported by the China government. The authority endorsements relax financial constraints and promote operation efficiency. Using a sample of 9,733 firm-years in the empirical study, it is found that companies participating in PPP projects are associated with greater selling, general, and administrative (SG&A) cost stickiness, and it is more prominent in companies with severe financial constraints. Meanwhile, SG&A cost stickiness is stronger in companies carrying PPP projects in provinces with great amount of PPP investments which alleviates hardship of the government by issuing debts. To verify the causal link between PPP and cost stickiness, it is found that PPP projects can reduce relative changes between productions and demands in companies, implying PPP improve the bargaining power against suppliers and the control of manufacturing cost. Typical PPP projects have great public interest that should be reinforced by high-quality construction and commitments on investments, thus the marginal stickiness brings out incremental social benefit. The overall actual performance of PPP projects in China is good.

Published
2023
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5. Evaluation of inhibitory activity of a polyoxometallate on polyphenol oxidase and its application in the preservation of Litopenaeus vannamei

Author

FANG Jia-qi, HAN Qing, MA Yang-yu, WANG Fang, LI Li-li, LI Wen-jie, and WANG Li

Subjects
polyoxomethoate, polyphenol oxidase, inhibitor, litopenaeus vannamei boone, preservation, Food processing and manufacture, TP368-456
Abstract

Objective: To design new and effective polyphenol oxidase (PPO) inhibitors and expand their application in the field of aquatic product preservation. Methods: The synthesized H8[P2Mo17Ni(OH2)O61] (P2Mo17Ni) structure was characterized by ultraviolet and infrared spectrum. The inhibitory effect, type and mechanism of P2Mo17Ni on the relative activity of mushroom PPO in vitro was clarified. Then, the preservation effects of P2Mo17Ni on Litopenaeus vannamei Boone were evaluated through studying the index change of shrimps treated with P2Mo17Ni stored at 4 ℃, in which included the sensory score, the value of chromatic aberration L*, the value of total chromatic aberration (ΔE), the total number of colonies, the value of pH and the value of total volatile basic nitrogen (TVB-N). Results: The results showed that P2Mo17Ni was synthesized successfully. P2Mo17Ni inhibited the activity of PPO from mushroom in vitro with semi-inhibitory concentration (IC50) of (0.377±0.004) mmol/L. P2Mo17Ni inhibited mushroom PPO in a competitive reversible manner, and the inhibition constant KI was 0.185 mmol/L. Under the cold storage condition of 4 ℃, compared with the control group, P2Mo17Ni could effectively delay the decline of sensory score and the increase of L* and ΔE value in shrimps treated with P2Mo17Ni, and the inhibitory effect was significant. P2Mo17Ni could significantly inhibit the increase of total number of colonies, pH value and TVB-N value. P2Mo17Ni could extend the shelf life of shrimps for 4~5 days. Conclusion: P2Mo17Ni can slow down the blackening of shrimps and prevent its spoilage. P2Mo17Ni possesses a good preservation effect on L. vannamei and can be used in the preservation industry of aquatic products.

Published
2023
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6. The medium-temperature dependence of jet transport coefficient in high-energy heavy-ion collisions

Author

Xie, Man, Fei, Han-Qing, Wang, En-Ke, Zhang, Ben-Wei, and Zhang, Han-Zhong

Subjects
High Energy Physics - Phenomenology
Abstract

The medium-temperature $T$ dependence of the jet transport coefficient $\hat q$ was studied via the nuclear modification factor $R_{AA}(p_{\rm T})$ and elliptical flow parameter $v_2(p_{\rm T})$ for large transverse momentum $p_{\rm T}$ hadrons in high-energy nucleus-nucleus collisions. Within a next-to-leading-order perturbative QCD parton model for hard scatterings with modified fragmentation functions due to jet quenching controlled by $\hat q$, we check the suppression and azimuthal anisotropy for large $p_{\rm T}$ hadrons, and extract $\hat q$ by global fits to $R_{AA}(p_{\rm T})$ and $v_2(p_{\rm T})$ data in A + A collisions at RHIC and LHC, respectively. The numerical results from the best fits show that $\hat q/T^3$ goes down with local medium temperature $T$ in the parton jet trajectory. Compared with the case of a constant $\hat{q}/T^3$, the going-down $T$ dependence of $\hat{q}/T^3$ makes a hard parton jet to lose more energy near $T_{\rm c}$ and therefore strengthens the azimuthal anisotropy for large $p_{\rm T}$ hadrons. As a result, $v_2(p_{\rm T})$ for large $p_{\rm T}$ hadrons was enhanced by approximately 10% to better fit the data at RHIC/LHC. Considering the first-order phase transition from QGP to the hadron phase and the additional energy loss in the hadron phase, $v_2(p_{\rm T})$ is again enhanced by 5%-10% at RHIC/LHC.

Published
2024

7. Extracrainal ⁃ intracranial bypass for large and giant intracranial thrombotic aneurysms

Author

HAN Qing⁃dong and HUANG Ya⁃bo

Subjects
intracranial aneurysm, intracranial thrombosis, carotid artery internal, middle cerebral artery, cerebral revascularization, cerebral angiography, Neurology. Diseases of the nervous system, RC346-429
Abstract

Objective To investigate the extracrainal⁃ intracranial (EC ⁃ IC) bypass for large and giant intracranial thrombotic aneurysms. Methods Fifteen patients of large or giant intracranial thrombotic aneurysms were treated with EC⁃IC bypass from March 2013 to July 2020 in The First Affiliated Hospital of Soochow University. Among them, there were 9 patients with large aneurysms (maximum diameter of aneurysm 1.50-2.50 cm) and 6 patients with giant aneurysms (maximum diameter of aneurysm>2.50 cm). According to locations, there were 7 paraclinoid internal carotid artery (ICA) aneurysms, 3 supraclinoid ICA aneurysms, 3 middle cerebral artery (MCA) aneurysms and 2 ICA bifurcation aneurysms. Six cases were treated with low⁃flow superficial temporal artery (STA)⁃MCA bypass and aneurysmal clipping, 2 cases with STA⁃MCA bypass and aneurysmectomy, one with STA⁃MCA bypass and ligation of extracranial ICA, 4 patients with high⁃flow external carotid artery (ECA)⁃radial artery (RA)⁃MCA bypass and trapping of aneurysms, 2 patients with high ⁃flow ECA ⁃RA ⁃MCA bypass and aneurysmectomy. Results Aneurysm occlusion was confirmed in postoperative DSA or CTA in 15 patients and intraoperative TCD and indocyanine green angiography (ICGA) verified the patency of grafts. Thirteen patients achieved better outcome postoperatively. The muscle strength of contralateral limb in another one decrease following bypass. Emergency CT indicated ipsilateral basal ganglia infarction, and the muscle strength recovered to grade 5 after rehabilitation treatment. A mean 12.70 months follow ⁃ up was carried out. One patient suffered acute subdural hematoma 7 d following bypass and presented coma after a second craniotomy. Fourteen patients achieved good outcomes (GOS score 4-5) at last 6 months follow⁃up. One patient had a poor outcome (GOS score ≤ 3) at last 6 months follow⁃up. Conclusions EC⁃IC bypass can be individually carried out for large or giant intracranial thrombotic aneurysm. Preoperative assessment of cerebral hemodynamic and classification of aneurysms can provide favorable support for treatment.

Published
2021
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8. Visualizing Research Trends on Culture Neuroscience (2008–2021): A Bibliometric Analysis

Author

Han Qing Xu, Chih-Chao Chung, and Cheng Yu

Subjects
cultural neuroscience, bibliometric analysis, evolutionary analysis, research topics, research hotspots, Psychology, BF1-990
Abstract

Recently, cultural neuroscience has gained attention as a new, important, and interdisciplinary topic in the field of neuroscience. It helps us understand the interaction of cultural and biological factors over the course of life. This study aims to provide a comprehensive overview of the field to readers and potential researchers engaged in cultural neuroscience research. A bibliometric analysis was performed on 113 articles in the field of cultural neuroscience from 2008 to 2021 using data from the core collection of Web of Science. Network visualization software VOSviewer and ITGInsight were used for performance analysis and science mapping. Specifically, the performance analysis included countries, institutions, authors, papers, and journals, while science mapping analyzed the collaboration network, keyword network, bibliographic coupling network, and time series evolution. The results showed that the United States was the most productive country, Northwestern University was the most influential research institution, Chiao Jy was the most influential scholar, and “Social Cognitive and Affective Neuroscience” made the greatest contribution to publishing in the field of cultural neuroscience. Furthermore, collaboration is expected to be the development trend in the future. The key research topics in the field of cultural neuroscience included neuroimaging and psychiatric diseases, theoretical methods, interdisciplinary research, cultural differences (collectivism and individualism), and brain functions. Finally, future research will focus on cultural neuroscience, culture, and self, while adolescence will be the emerging research frontier.

Published
2022
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9. Correlation Effects in a Simplified Bilayer Two-Orbital Hubbard Model at Half Filling

Author

Yang, Jian-Jian, Yao, Dao-Xin, and Wu, Han-Qing

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Motivated by the discovery of high-temperature superconductivity in bilayer nickelate La$_3$Ni$_2$O$_7$ under pressure, we investigate the ground-state phase diagram and correlation effects using determinant quantum Monte Carlo simulations in a simplified bilayer two-orbital Hubbard model at half filling. Our results reveal the emergence of a nonmagnetic weakly insulating phase at weak on-site Hubbard interactions, transitioning to an antiferromagnetic Mott insulating phase as the interaction strength exceeds a critical value $U/t_1^x\approx 4.15$. This phase transition is consistent with the 3D O(3) Heisenberg universality class. Additionally, we analyze dynamical properties such as the single-particle spectral function and dynamic spin structure factor. The pronounced inter-layer correlation of $d_{3z^2-r^2}$ orbitals results in a downward trend and an extended flatness in the $\gamma$ band, mirroring the angle-resolved photoemission spectroscopy findings under ambient pressure. Our numerical results provide important clues for understanding the strong correlation effects in La$_3$Ni$_2$O$_7$., Comment: 9 pages, 11 figures

Published
2024

10. HiMA: Hierarchical Quantum Microarchitecture for Qubit-Scaling and Quantum Process-Level Parallelism

Author

Zhou, Qi, Mei, Zi-Hao, Shi, Han-Qing, Guo, Liang-Liang, Yang, Xiao-Yan, Wang, Yun-Jie, Xu, Xiao-Fan, Xue, Cheng, Kong, Wei-Cheng, Wang, Jun-Chao, Wu, Yu-Chun, Chen, Zhao-Yun, and Guo, Guo-Ping

Subjects
Computer Science - Hardware Architecture, Quantum Physics
Abstract

Quantum computing holds immense potential for addressing a myriad of intricate challenges, which is significantly amplified when scaled to thousands of qubits. However, a major challenge lies in developing an efficient and scalable quantum control system. To address this, we propose a novel Hierarchical MicroArchitecture (HiMA) designed to facilitate qubit scaling and exploit quantum process-level parallelism. This microarchitecture is based on three core elements: (i) discrete qubit-level drive and readout, (ii) a process-based hierarchical trigger mechanism, and (iii) multiprocessing with a staggered triggering technique to enable efficient quantum process-level parallelism. We implement HiMA as a control system for a 72-qubit tunable superconducting quantum processing unit, serving a public quantum cloud computing platform, which is capable of expanding to 6144 qubits through three-layer cascading. In our benchmarking tests, HiMA achieves up to a 4.89x speedup under a 5-process parallel configuration. Consequently, to the best of our knowledge, we have achieved the highest CLOPS (Circuit Layer Operations Per Second), reaching up to 43,680, across all publicly available platforms.

Published
2024

11. Vestigial Gapless Boson Density Wave Emerging between $\nu = 1/2$ Fractional Chern Insulator and Finite-Momentum Supersolid

Author

Lu, Hongyu, Wu, Han-Qing, Chen, Bin-Bin, and Meng, Zi Yang

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

The roton-triggered charge-density-wave (CDW)is widely studied in fractional quantum Hall (FQH) and fractional Chern insulator (FCI) systems, and there also exist field theoretical and numerical realizations of continuous transition from FCI to superfluid (SF). However, the theory and numerical explorations of the transition between FCI and supersolid (SS) are still lacking. In this work, we study the topological flat-band lattice models with $\nu$ = 1/2 hard-core bosons, where the previous studies have discovered the existence of FCI states and possible direct FCI-SS transitions. While the FCI is robust, we find the direct FCI-SS transition is absent, and there exist more intriguing scenarios. In the case of checkerboard lattice, we find an intermediate gapless CDW state without SF, sandwiched between FCI and SS. This novel state is triggered by the roton instability in FCI and it further continuously brings about the intertwined finite-momentum SF fluctuation when the CDW order is strong enough, eventually transiting into an unconventional finite-momentum SS state. The intermediate gapless CDW state is a vestige from the SS state, since the increasing quantum fluctuation melts only the Larkin-Ovchinnikov-type SF order in SS but its (secondary) product -- the CDW order -- survives. On honeycomb lattice, we find no evidence of SS, but discover an interesting sequence of FCI-Solid I-Solid II transitions, with both solids incompressible. Moreover, in contrast to previous single-roton condensation, this sequence of FCI-Solid I-Solid II transitions is triggered by the softening of multi-roton modes in FCI. Considering the intertwined wave vectors of the CDW orders, Solid I is a vestige of Solid II. Our work provides new horizon not only for the quantum phase transitions in FCI but also for the intertwined orders and gapless states in bosonic systems, which will inspire future studies.

Published
2024

12. Double pion photoproduction off nucleons in covariant chiral perturbation theory

Author

Kang, Kai-Ge, Cao, Xiong-Hui, Yao, De-Liang, and Zheng, Han-Qing

Subjects
High Energy Physics - Phenomenology
Abstract

The double pion photoproduction off nucleons near threshold is analyzed in a covariant baryon chiral perturbation theory up to next to leading order, where the $\Delta(1232)$, $N^*(1400)$ and $\rho(770)$ resonances are included as explicit degrees of freedom. For the process $\gamma p \to \pi^+ \pi^0 n$, the chiral results of total cross sections, invariant-mass distributions and beam-helicity asymmetry are in good agreement with the experimental data within uncertainties. For the process $\gamma p \to \pi^0 \pi^0 p$, the prediction of total cross section deviates from the existing experimental data. Once the final-state interaction of $\pi \pi$ in the isoscalar S-wave channel is taken into account, a good description of the cross section is achieved. The effect of the Roper resonance always turns out be negligible, and hence can be thrown away in future study of this process., Comment: 27 pages, 11 figures, 1 table

Published
2024

13. Universal Critical Holography and Domain Wall Formation

Author

Ma, Tian-Chi, Shi, Han-Qing, Zhang, Hai-Qing, and del Campo, Adolfo

Subjects
Condensed Matter - Statistical Mechanics, High Energy Physics - Theory, Quantum Physics
Abstract

Using holography, we study the universal scaling laws governing the coarsening dynamics of strongly coupled domain walls. Specifically, we studied the universal dependence of the length of the domain wall interfaces on the quench rate. The relation satisfies the Kibble-Zurek scaling shortly after the critical point. However, as time goes by, the coarsening dynamics suppresses the Kibble-Zurek scaling in favor of a universal dynamical scaling of the characteristic length and the adiabatic growth of the system. Theoretical predictions of the universal scaling laws are consistent with numerical findings in both regimes for both weak and strongly coupled systems., Comment: 9 pages, 9 figures

Published
2024

14. Study on Aerodynamic Characteristics of Tilting Wing Aircraft Considering Propeller Interference

Author

Wei Wei, Han Qing, Sang Xiaoqing, and Liu Xing

Subjects
tilting wing, vtol, tandem wing, aerodynamic characteristics, propeller interference, Motor vehicles. Aeronautics. Astronautics, TL1-4050
Abstract

Tilting wing aircraft not only has the ability of vertical take-off and landing like helicopter, but also be provided with high speed cruise capability as traditional fixed-wing aircraft.Tilting wing aircraft is one of the hot spots of research in both military and civilian unmanned aerial vehicles.A new layout, tilt-tandem wing and quadrotor of vertical take-off and landing(VTOL)aircraft, is proposed to avoid the defects of low aerodynamic efficiency and complicated tilting mechanism.Conceptual design and aerodynamics simulation are carried out to analyze the aerodynamic characteristics of aircraft with the interference of propellers.Further more, prototypes are made and experienced several flight tests validation.Results show that this layout can avoid the disadvantages of low efficiency propellers and complicated tilting mechanism, which is reliable and practical.

Published
2019
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15. Continuous Transition between Bosonic Fractional Chern Insulator and Superfluid

Author

Lu, Hongyu, Wu, Han-Qing, Chen, Bin-Bin, and Meng, Zi Yang

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

The properties of fractional Chern insulator (FCI) phases and the phase transitions between FCI and Mott insulators (MI) in bosonic systems are well studied. The continuous transitions between FCI and superfluid (SF), however, despite the inspiring field theoretical predictions, have not been directly verified. The existing numerical results of the FCI-SF transition are either indirect or clearly first-order. Here, by simply tuning the bandwidth of the Haldane honeycomb lattice model, we find direct transitions from a bosonic FCI at $\nu=1/2$ filling of a flat Chern band to two SF states with bosons condensed at momenta M or $\Gamma$, respectively. While the FCI-SF(M) transition is first-order, the FCI-SF($\Gamma$) transition is found continuous, and the bipartite entanglement entropy at the critical point with the area-law scaling is consistent with the critical theories. Through finite size criticality analysis, the obtained critical exponents $\beta\approx$ 0.35(5) and $\nu\approx$ 0.62(12) are both compatible with those of the 3D XY universality class within numerical uncertainty and possibly more exotic beyond-Landau ones. This letter thence presents a direct numerical demonstration of a continuous FCI-SF transition between topologically ordered phase and spontaneous continuous symmetry-breaking phase, and further indicates the zero-field bosonic FCI might be realized from a SF state by gradually flattening the dispersion of the Chern band, through the (quasi)adiabatic preparation in ultracold atom systems.

Published
2024

16. Revisiting $O(N)$ $\sigma$ model at unphysical pion masses and high temperatures. II. The vacuum structure and thermal $\sigma$ pole trajectory with cross-channel improvements

Author

Lyu, Yuan-Lin, Li, Qu-Zhi, Xiao, Zhiguang, and Zheng, Han-Qing

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Lattice, High Energy Physics - Theory, Nuclear Theory
Abstract

The effective potential of the $O(N)$ model at large $N$ limit is reinvestigated with varying pion mass and temperature. For large pion masses and high temperatures, we find the phenomenologically favored vacuum, located on the upper branch of the double-branched effective potential for physical $m_\pi$, moves to the lower branch and becomes no longer a local minimum but a saddle point. The existence and running of the tachyon pole are also discussed. These phenomena indicate that the applicable energy range of $O(N)$ model is more and more limited as $m_\pi$ becoming larger and temperature going higher. With the effective coupling constant defined from the effective potential, the possible correspondence between the two branches of the effective potential and the two phases of the theory (distinguished by positive or negative coupling) is verified even with nonzero explicit symmetry breaking and at finite temperature. Also, we generalize the $N/D$ modified $O(N)$ model to study the thermal trajectory of the $\sigma$ pole with the cross-channel contributions considered and find the thermal $\sigma$ pole trajectory resembles its counterpart with varying pion mass at zero temperature., Comment: v1: 15 pages, 14 figures; v2: 17 pages, 14 figures, references and some details added

Published
2024

17. Asymmetric Symmetry Breaking: Unequal Probabilities of Vacuum Selection

Author

Ma, Tian-Chi, Shi, Han-Qing, and Zhang, Hai-Qing

Subjects
High Energy Physics - Theory, Condensed Matter - Superconductivity, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology
Abstract

Spontaneous symmetry breaking is a fundamental notion in modern physics, ranging from high energy to condensed matter. However, the usual spontaneous symmetry breaking only considers the equal probability to select the vacua. In this work, we conceive a model to realize the unequal probability of the symmetry breaking, leading to an unbalanced number of ground states. Specifically, we study the probabilities of a scalar field to roll down from the top of a potential, where the top is only $C^1$ continuous. As the whole system is subject to random perturbations, we find that the probability for the field to roll down to the left or right side depends the square root of the second derivative of the potential at the top. We solve this problem theoretically by using the Fokker-Planck equations in stochastic process and verify our findings numerically. This study may potentially be a new mechanism to explain the origins of asymmetries in the Universe., Comment: 5+2 pages, 3+2 figures, context improved, references added

Published
2024

18. On the Federated Learning Framework for Cooperative Perception

Author

Zhang, Zhenrong, Liu, Jianan, Zhou, Xi, Huang, Tao, Han, Qing-Long, Liu, Jingxin, and Liu, Hongbin

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

Cooperative perception is essential to enhance the efficiency and safety of future transportation systems, requiring extensive data sharing among vehicles on the road, which raises significant privacy concerns. Federated learning offers a promising solution by enabling data privacy-preserving collaborative enhancements in perception, decision-making, and planning among connected and autonomous vehicles (CAVs). However, federated learning is impeded by significant challenges arising from data heterogeneity across diverse clients, potentially diminishing model accuracy and prolonging convergence periods. This study introduces a specialized federated learning framework for CP, termed the federated dynamic weighted aggregation (FedDWA) algorithm, facilitated by dynamic adjusting loss (DALoss) function. This framework employs dynamic client weighting to direct model convergence and integrates a novel loss function that utilizes Kullback-Leibler divergence (KLD) to counteract the detrimental effects of non-independently and identically distributed (Non-IID) and unbalanced data. Utilizing the BEV transformer as the primary model, our rigorous testing on the OpenV2V dataset, augmented with FedBEVT data, demonstrates significant improvements in the average intersection over union (IoU). These results highlight the substantial potential of our federated learning framework to address data heterogeneity challenges in CP, thereby enhancing the accuracy of environmental perception models and facilitating more robust and efficient collaborative learning solutions in the transportation sector., Comment: accepted by IEEE RA-L

Published
2024

19. From a fractional quantum anomalous Hall state to a smectic state with equal Hall conductance

Author

Lu, Hongyu, Wu, Han-Qing, Chen, Bin-Bin, and Meng, Zi Yang

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

The recent developments in twisted MoTe$_2$ and rhombohedral multilayer graphene have generated widespread attention to the general features of fractional quantum anomalous Hall (FQAH) states, including their possible coexistence with and transition to various symmetry breaking charge ordered states. These attentions are pushing forward our knowledge of the relation between the topological order in FQAH states and the Landau-type of symmetry breaking order such as the 1D smectic electronic liquid crystal and 2D charge-density-wave (CDW) solid. Although the transitions from topological states to symmetry breaking states with trivial topology have been discussed, the road from one topological ordered state to another with the same Hall conductance and broken translational symmetry has not been found. Here we show the intriguing evidence that the FQAH to FQAH Smectic (FQAHS) transition is robustly realizable in the archetypal correlated flat Chern-band model at filling $\nu$ = 2/3. This transition is novel in that: i) the FQAHS acquires the same fractional Hall conductance as FQAH, which cannot be explained by mean-field band folding. The formation of smectic order can be viewed as perturbation around the transition point, and thus, do not destroy or change the original topology; ii) the charge excitation remains gapped across the transition although the neutral gap is closed at transition point; and iii) the transition is triggered by the softening of roton mode with the same wave vector as the smectic order. Our discovery opens countless new possibilities, both theoretical and experimental, in the fast-growing field of robust fractional Chern insulators.

Published
2024

20. Explainable AutoML (xAutoML) with adaptive modeling for yield enhancement in semiconductor smart manufacturing

Author

Zhai, Weihong, Shi, Xiupeng, Wong, Yiik Diew, Han, Qing, and Chen, Lisheng

Subjects
Computer Science - Computational Engineering, Finance, and Science
Abstract

Enhancing yield is recognized as a paramount driver to reducing production costs in semiconductor smart manufacturing. However, optimizing and ensuring high yield rates is a highly complex and technical challenge, especially while maintaining reliable yield diagnosis and prognosis, and this shall require understanding all the confounding factors in a complex condition. This study proposes a domain-specific explainable automated machine learning technique (termed xAutoML), which autonomously self-learns the optimal models for yield prediction, with an extent of explainability, and also provides insights on key diagnosis factors. The xAutoML incorporates tailored problem-solving functionalities in an auto-optimization pipeline to address the intricacies of semiconductor yield enhancement. Firstly, to capture the key diagnosis factors, knowledge-informed feature extraction coupled with model-agnostic key feature selection is designed. Secondly, combined algorithm selection and hyperparameter tuning with adaptive loss are developed to generate optimized classifiers for better defect prediction, and adaptively evolve in response to shifting data patterns. Moreover, a suite of explainability tools is provided throughout the AutoML pipeline, enhancing user understanding and fostering trust in the automated processes. The proposed xAutoML exhibits superior performance, with domain-specific refined countermeasures, adaptive optimization capabilities, and embedded explainability. Findings exhibit that the proposed xAutoML is a compelling solution for semiconductor yield improvement, defect diagnosis, and related applications.

Published
2024

21. Interaction-driven Roton Condensation in C = 2/3 Fractional Quantum Anomalous Hall State

Author

Lu, Hongyu, Wu, Han-Qing, Chen, Bin-Bin, Sun, Kai, and Meng, Zi Yang

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The interplay of topological order and charge order exhibits rich physics. Recent experiments that succesfully realized the frational quantum anomalous Hall (FQAH) effect in twisted MoTe$_2$ bilayers and rhombohedral multilayer graphene without external magnetic field further call for deeper understanding of the relation between topological order and charge order in quantum moir\'e materials. In the archetypal correlated flat-band model on checkerboard lattice, a FQAH smectic state with coexistent topological order and smectic charge order has been numerically discovered at filling $\nu$ = 2/3. In this work, we explore the global ground-state phase diagram of the model with competing interactions and find a C = 2/3 FQAH phase surrounded by four different charge density wave (CDW) phases. In particular, we identify a FQAH-CDW transition triggered by roton condensation, in that, the minimal roton gap continues to decrease at the same finite momentum, along with the diverging density flucuations at the transition point, after which the system enters into a CDW metal phase with the same ordered wavevector. Our discovery points out that the charge-neutral roton modes can play a significant role in a transition from FQAH topological order to CDW symmetry-breaking order, discussed in FQH literature while severely neglected in FQAH systems.

Published
2024

26. Simulation Analysis of Hydrodynamic Ram Factors and Effects in Aircraft Fuel Tank

Author

Han Lu, Han Qing, and Yang Shuang

Subjects
high-speed impact, aircraft fuel tank, hydrodynamic ram, numerical simulation, vulnerability, Motor vehicles. Aeronautics. Astronautics, TL1-4050
Abstract

As one of the major damage modes of the aircraft fuel tank, hydrodynamic ram may cause a catastrophic destroy to the fuel tank structure. In order to analyze the hydrodynamic ram factors and effects systematically, a validated model of the fuel tank by a full filled cube is built. Situations of different impact velocities, fragment masses, materials, shapes, incident angles, incident directions and various filling rates are studied. Parameters of the fragment speed decay, pressure inside the fuel tank and the deformation of the fuel tank wall are analyzed carefully. The results show that the damage ability of the hydrodynamic ram will exacerbate with the increase of the impact velocity, mass and the filling rate. The shape of the fragment has a certain effect on the fluid pressure and the wall deformation. The incident angle and direction of the fragment will change its motion path in the fluid and then affect the hydrodynamic ram effect. Finally, the least squares method is used to fit the deformation formula of the inlet and outlet wall of the simulation tank. The laws of the hydrodynamic ram of the fuel tank resulted can be used to assess the aircraft fuel system vulnerability and design reliable protection for the fuel tank.

Published
2018
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27. Variational principles and forecasting models of the contents of Ca and Sr during the A356 melting process

Author

AO Xiao-hui, XING Shu-ming, GUO Mei-xiao, HAN Qing-you, and WANG Ru-fen

Subjects
melting temperature, holding time, mass fraction, variational principles, prediction models, Mining engineering. Metallurgy, TN1-997, Environmental engineering, TA170-171
Abstract

Ca and Sr are the most effective modification elements in the casting of the Al-Si alloy, and they are usually added before casting when the alloy is in the form of the middle alloy. However, in the aluminum scrap melting regeneration industry, small amounts of Ca and Sr are often contained in the raw materials; as a result, controlling the mechanisms responsible for their contents in the raw aluminum scrap materials is a prerequisite for the reuse of such aluminum scrap during the melting process. This study aims to present the experimental investigation of the influences of the melting temperature and the holding time on the variational principles of the Ca and Sr percentage in an industrial A356 ingot during the melting process. The results indicate that the variations in the mass fractions of Ca and Sr both show Exp3P2 laws that continued decreasing gradually with the holding time and that the change rates of the mass fractions of Ca and Sr both improve with an increase in the melting temperature. Based on thermodynamic and dynamic analysis, the reactions of[Ca] and[Sr] with oxygen in the melt occur and CaO and SrO are produced in the first stage of aluminum scrap melting regeneration process; subsequently, Al2O3·6CaO and Al2O3·SrO are produced by the reactions of CaO and SrO with Al2O3, respectively, before the mass fractions of Ca and Sr finally decrease after slagging. In the middle and later stages of the melting regeneration process, the Ca and Sr percentages are reduced by[Ca] and[Sr] diffusing to the melt surface and then deoxidizing Al2O3. The apparent activation energies of Ca and Sr oxidation reactions calculated at 660~740℃ during the A356 melting process are 182.6 kJ·mol-1 and 117.8 kJ·mol-1, respectively, demonstrating that the both reactions are controlled by the chemical reaction process. The Ca and Sr mass fraction prediction models are established according to their variations and the forecast error is less than 10% by the production verification; thus, both mass fraction prediction models can be used to predict the mass fractions of Ca and Sr in scrap aluminum melting regeneration.

Published
2018
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28. Revisiting $O(N)$ $\sigma$ model at unphysical pion masses and high temperatures

Author

Lyu, Yuan-Lin, Li, Qu-Zhi, Xiao, Zhiguang, and Zheng, Han-Qing

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Lattice, High Energy Physics - Theory, Nuclear Theory
Abstract

Roy-equation analyses on lattice data of $\pi\pi$ scattering phase shifts at $m_\pi=391$MeV reveals that the lowest $f_0$ meson becomes a bound state under this condition. In addition, there is a pair of complex poles below threshold generated by crossing symmetry [X.-H. Cao et al., Phys. Rev. D 108, 034009 (2023)]. We use the $N/D$ method to partially recover crossing symmetry of the $O(N)$ $\sigma$ model amplitude at leading order of $1/N$ expansion, and qualitatively reproduce the pole structure and pole trajectories with varying pion masses as revealed by Roy-equation analyses. The $\sigma$ pole trajectory with varying temperature is also discussed and found to be similar to its properties when varying $m_\pi$. As the temperature increases, the complex $\sigma$ poles firstly move from the second Riemann sheet to the real axis becoming two virtual state poles, and then one virtual state pole moves to the first sheet turning into a bound state pole and finally tends to the pion pole position at high temperature which is as expected from the chiral symmetry restoration. Our results provide further evidences that the lowest $f_0$ state extracted from experiments and lattice data plays the role of $\sigma$ meson in the spontaneous breaking of chiral symmetry. Finally, we also briefly discuss the problems of the effective potential in the situation when $m_\pi$ and temperature get large., Comment: 13 pages, 5 figures, 1 table; to match the published version

Published
2024
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29. Quantum phase transitions and composite excitations of antiferromagnetic quantum spin trimer chains in a magnetic field

Author

Cheng, Jun-Qing, Ning, Zhi-Yao, Wu, Han-Qing, and Yao, Dao-Xin

Subjects
Condensed Matter - Strongly Correlated Electrons, Physics - Computational Physics
Abstract

Motivated by recent advancements in theoretical and experimental studies on the high-energy excitations, we theoretically explore the quantum phase transition and composite dynamics of the antiferromagnetic trimer chains in a magnetic field using the exact diagonalization, density matrix renormalization group, time-dependent variational principle and cluster perturbation theory. We measure the entanglement entropy to uncover the phase diagram, encompassing the XY-I, $1/3$ magnetization plateau, XY-II and ferromagnetic phases. Both critical XY-I and XY-II phases are both described by the conformal field theory with the central charge $c \simeq 1$. By analyzing the dynamical structure factor, we elucidate the distinct features of spin dynamics across different phases. In the regime of weak intertrimer interaction, we identify the intermediate-energy and high-energy modes in the XY-I and $1/3$ magnetization plateau phases as the internal trimer excitations, corresponding to the propagation of doublon and quarton, respectively. Notably, the application of a magnetic field splits the high-energy spectra into two branches labeled as the upper quarton and lower quarton. Furthermore, we also explore the spin dynamics of a trimerized model closely related to the quantum magnet \ce{Na_2Cu_3Ge_4O_12}, and discuss the possibility of the quarton Bose-Einstein condensation. Our results can be verified in the inelastic neutron scattering experiments and provide deep insights for exploring the high-energy exotic excitations., Comment: 14+7 pages, 16 figures

Published
2024

30. Chiral spin liquid and quantum phase diagram of spin-$1/2$ $J_1$-$J_2$-$J_{\chi}$ model on the square lattice

Author

Zhang, Xiao-Tian, Huang, Yixuan, Wu, Han-Qing, Sheng, D. N., and Gong, Shou-Shu

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We study the spin-$1/2$ Heisenberg model on the square lattice with the first and second nearest-neighbor antiferromagnetic couplings $J_1$, $J_2$, as well as the three-spin scalar chiral coupling $J_{\chi}$. Using density matrix renormalization group calculations, we obtain a quantum phase diagram of this system for $0 \leq J_2/J_1 \leq 1.0$ and $0 \leq J_{\chi}/J_1 \leq 1.5$. We identify the N\'eel and stripe magnetic order phase at small $J_{\chi}$ coupling. With growing $J_{\chi}$, we identify the emergent chiral spin liquid (CSL) phase characterized by the quantized spin Chern number $C = 1/2$ and entanglement spectrum with the quasidegenerate group of levels agreeing with chiral SU(2)$_1$ conformal field theory, which is an analog of the $\nu = 1/2$ Laughlin state in spin system. In the vicinity of the N\'eel and CSL phase boundary, our numerical results do not find evidence to support the phase coexistence of N\'eel order and topological order that was conjectured by mean-field calculations. In the larger $J_2$ and $J_{\chi}$ coupling regime, the entanglement spectrum of the ground state also exhibits the chiral quasidegeneracy consistent with a CSL, but the adiabatic flux insertion simulations fail to obtain the quantized Chern number. By analyzing the finite-size scaling of magnetic order parameter, we find the vanished magnetic order suggesting a magnetic disorder phase, whose nature needs further studies. Different from the spin-$1$ $J_1$-$J_2$-$J_\chi$ model, we do not find the coexistent stripe magnetic order and topological order. We also investigate the $J_{\chi}$ dominant regime and find a strong tendency of the system to develop a dimer order rather than the chiral spin magnetic order observed in the spin-$1$ model., Comment: 16 pages, 17 figures

Published
2024
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31. Magnon, doublon and quarton excitations in 2D S=1/2 trimerized Heisenberg models

Author

Chang, Yue-Yue, Cheng, Jun-Qing, Shao, Hui, Yao, Dao-Xin, and Wu, Han-Qing

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We investigate the magnetic excitations of the trimerized Heisenberg models with intra-trimer interaction $J_1$ and inter-trimer interaction $J_2$ on four different two-dimensional lattices using a combination of stochastic series expansion quantum Monte Carlo (SSE QMC) and stochastic analytic continuation methods (SAC), complemented by cluster perturbation theory (CPT). These models exhibit quasi-particle-like excitations when $g=J_2/J_1$ is small, characterized by low-energy magnons, intermediate-energy doublons, and high-energy quartons. The low-energy magnons are associated with the magnetic ground states. They can be described by the linear spin wave theory (LSWT) of the effective block spin model and the original spin model. Doublons and quartons emerge from the corresponding internal excitations of the trimers with distinct energy levels, which can be effectively analyzed using perturbation theory when the ratio of exchange interactions $g$ is small. In this small $g$ regime, we observe a clear separation between the magnon and higher-energy spectra. However, as $g$ increases, these three spectra gradually merge into the magnon modes or continua. Nevertheless, the LSWT fails to provide quantitative descriptions of the higher-energy excitation bands due to significant quantum fluctuations. Notably, in the Collinear II and trimerized hexagon lattice, a broad continuum emerges above the single-magnon spectrum, originating from the quasi-1D physics due to the dilute connections between chains. Our numerical analysis of these 2D trimers yields valuable theoretical predictions and explanations for the inelastic neutron scattering (INS) spectra of 2D magnetic materials featuring trimerized lattices.

Published
2023
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32. From Fractional Quantum Anomalous Hall Smectics to Polar Smectic Metals: Nontrivial Interplay Between Electronic Liquid Crystal Order and Topological Order in Correlated Topological Flat Bands

Author

Lu, Hongyu, Wu, Han-Qing, Chen, Bin-Bin, Sun, Kai, and Meng, Zi Yang

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

Symmetry-breaking orders can not only compete with each other, but also be interwined, and the interwined topological and symmetry-breaking orders make the situation more intriguing. This work examines the archetypal correlated flat band model on a checkerboard lattice at filling $\nu=2/3$ and we find the unique interplay between smectic charge order and topological order gives rise to two novel quantum states. As the interaction strength increases, the system first transitions from a Fermi liquid into FQAH smectic (FQAHS) state, where FQAH topological order coexists cooperatively with smectic charge order with enlarged ground-state degeneracy and interestingly, the Hall conductivity is $\sigma_{xy}=\nu=2/3$, different from the band-folding or doping scenarios. Further increasing the interaction strength, the system undergoes another quantum phase transition and evolves into a polar smectic metal (PSM) state. This emergent PSM is an anisotropic non-Fermi liquid, whose interstripe tunneling is irrelevant while it is metallic inside each stripe. Different from the FQAHS and conventional smectic orders, this PSM spontaneously breaks the two-fold rotational symmetry, resulting in a nonzero electric dipole moment and ferroelectric order. In addition to the exotic ground states, large-scale numerical simulations are also used to study low-energy excitations and thermodynamic characteristics. We find the onset temperature of the incompressible FQAHS state, which also coincides with the onset of non-polar smectic order, is dictated by the magneto-roton modes. Above this onset temperature, the PSM state exists at intermediate-temperature regime. Although the T = 0 quantum phase transition between PSM and FQAHS is first order, the thermal FQAHS-PSM transition could be continuous. We expect the features of the exotic states and thermal phase transitions could be accessed in future experiments.

Published
2023
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33. Phase diagram and critical behavior of Hubbard model on the square-hexagon-octagon lattice

Author

Jia, Xinwei, Yao, Dao-Xin, and Wu, Han-Qing

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Employing the projective formalism of determinant quantum Monte Carlo (DQMC) simulations, we meticulously explore the ground-state phase diagram and critical behavior of the half-filled Hubbard model on a square-hexagon-octagon (SHO) lattice. This lattice, a two-dimensional (2D) structure comprising squares, hexagons, and octagons, is representative of the biphenylene network (BPN). Our findings reveal an intriguing ground-state phase diagram, featuring an antiferromagnetic (AFM) Mott insulating phase enveloped by three valence-bond solid-like (VBS-like) insulating phases. Analyzing the single-particle gap, spin gap, and single-particle spectral function, we observe that the metallic state in the noninteracting case becomes unstable under the influence of Hubbard U. This interaction drives the system into a hexagon insulating phase before transitioning into an AFM Mott insulating phase. To quantify the critical exponents, we use finite-size scaling techniques. The critical exponents of quantum critical points between the AFM Mott insulating phase and two insulating phases, plaquette insulator and ethylene insulator, closely align with the 3D O(3) universality class. However, the critical exponents of quantum critical points between the hexagon insulating phase and the AFM Mott insulating phase deviate from the 3D O(3) universality class. This deviation is a finite-size effect and can be attributed to the coupling between the fluctuations of magnetic order parameter and very low-energy fermionic excitations. Our comprehensive study not only advances the understanding of correlation effects on the SHO lattice but also sheds light on the less-explored critical exponents in weakly insulating quantum critical point.

Published
2023
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34. FedLED: Label-Free Equipment Fault Diagnosis with Vertical Federated Transfer Learning

Author

Shen, Jie, Yang, Shusen, Zhao, Cong, Ren, Xuebin, Zhao, Peng, Yang, Yuqian, Han, Qing, and Wu, Shuaijun

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

Intelligent equipment fault diagnosis based on Federated Transfer Learning (FTL) attracts considerable attention from both academia and industry. It allows real-world industrial agents with limited samples to construct a fault diagnosis model without jeopardizing their raw data privacy. Existing approaches, however, can neither address the intense sample heterogeneity caused by different working conditions of practical agents, nor the extreme fault label scarcity, even zero, of newly deployed equipment. To address these issues, we present FedLED, the first unsupervised vertical FTL equipment fault diagnosis method, where knowledge of the unlabeled target domain is further exploited for effective unsupervised model transfer. Results of extensive experiments using data of real equipment monitoring demonstrate that FedLED obviously outperforms SOTA approaches in terms of both diagnosis accuracy (up to 4.13 times) and generality. We expect our work to inspire further study on label-free equipment fault diagnosis systematically enhanced by target domain knowledge., Comment: This paper has been accepted for publication in IEEE Transactions on Instrumentation & Measurement

Published
2023

35. A discussion on the anomalous threshold enhancement of $J/\psi$ -- $\psi(3770)$ couplings and $X(6900)$ peak

Author

Lu, Ye, Chen, Chang, Qin, Guang-you, and Zheng, Han-Qing

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

The attractive interaction between $J/\psi$ and $\psi(3770)$ has to be strong enough to form the molecular resonant structure, i.e., $X(6900)$. We argue that since $\psi(3770)$ decays predominantly into a $D\bar D$ pair, the interactions between $J/\psi$ and $\psi(3770)$ may be significantly enhanced due to the three point $D\bar D$ loop diagram. The enhancement comes from the anomalous threshold located at $t=-1.288$GeV$^2$, which effect propagates into the $s$-channel partial wave amplitude in the vicinity of $\sqrt{s}\simeq 6.9$GeV. This effect may be helpful in forming the $X(6900)$ peak., Comment: 6 pages, 5 figures

Published
2023

37. Effect of hypophosphite during the recovery of copper and cyanide from high concentration copper-cyanide wastewater by electrodeposition

Author

GAO Teng-yue, LIU Kui-ren, HAN Qing, and XU Bin-shi

Subjects
wastewater treatment, hypophosphite, electrodeposition, recovery, Mining engineering. Metallurgy, TN1-997, Environmental engineering, TA170-171
Abstract

The recovery of copper and cyanide from high concentration wastewater was conducted by electrodeposition with high basicity. The effect of hypophosphite dosage and temperature on recycling copper and cyanide from wastewater was investigated. The linear cyclic voltammetry, potentiostatic electrolysis and X-ray diffraction analysis were used to research the anodic reaction and precipitate phase, the mechanisms of cyanide decomposition and hypophosphite inhibition were also analyzed. The experiment of cyanide leaching of gold was done in residual liquid after electrolysis. The results indicate that the damage of cyanide is effectively suppressed by hypophosphite. The inhibitory effect is enhanced gradually with increasing temperature. The Cu2+ forming on the anode surface is the main reason to degrade cyanide. Hypophosphite restrains cyanide from degradation by preferential oxidation. The tail liquid has no effect on leaching of gold, and the copper-cyanide wastewater can be comprehensively recovered the valuable metals and cyanide by electrodeposition.

Published
2017
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