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179 results on '"Lin, Yu-han"'

1. Inter-Layer Correlation of Loop Current Charge Density Wave on the Bilayer Kagom\'e Lattice

Author

Dong, Jin-Wei, Lin, Yu-Han, Fu, Ruiqing, Su, Gang, Wang, Ziqiang, and Zhou, Sen

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Loop current order has been suggested as a promising candidate for the spontaneous time-reversal symmetry breaking $2a_0 \times 2a_0$ charge density wave (CDW) revealed in vanadium-based kagom\'e metals \avs\ ($A$ = K, Rb, Cs) near van Hove filling $n_\text{vH} = 5/12$. Weak-coupling analyses and mean field calculations have demonstrated that nearest-neighbor Coulomb repulsion $V_1$ and next-nearest-neighbor Coulomb repulsion $V_2$ drives, respectively, real and imaginary bond-ordered CDW, with the latter corresponding to time-reversal symmetry breaking loop current CDW. It is important to understand the inter-layer correlation of these bond-ordered CDWs and its consequences in the bulk kagom\'e materials. To provide physical insights, we investigate in this paper the $c$-axis stacking of them, loop current CDW in particular, on the minimal bilayer kagom\'e lattice. The bare susceptibilities for stacking of real and imaginary bond orders are calculated for the free electrons on the bilayer kagom\'e lattice with inter-layer coupling $t_\perp=0.2t$, which splits the van Hove filling to $n_{+\text{vH}}=4.64/12$ and $n_{-\text{vH}}=5.44/12$. While real and imaginary bond-ordered CDWs are still favored, respectively, by $V_1$ and $V_2$, their inter-layer coupling is sensitive to band filling $n$. They tend to stack symmetrically near $n_{\pm\text{vH}}$ with identical bond orders in the two layers and give rise to a $2a_0 \times 2a_0 \times 1c_0$ CDW. On the other hand, they prefer to stack antisymmetrically around $n_\text{vH}$ with opposite bond orders in the two layers and lead to a $2a_0 \times 2a_0 \times 2c_0$ CDW. The concrete bilayer $t$-$t_\perp$-$V_1$-V$_2$ model is then studied. We obtain the mean-field ground states and determine the inter-layer coupling as a function of band filling at various interactions. The nontrivial topological properties of loop current CDWs are studied ..., Comment: 12 pages, 8 figures, 2 tables

Published
2024

2. Interplay of Charge Density Wave and Magnetism on the Kagom\'e Lattice

Author

Lin, Yu-Han, Dong, Jin-Wei, Fu, Ruiqing, Wu, Xian-Xin, Wang, Ziqiang, and Zhou, Sen

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Motivated by the recent discovery of charge density wave (CDW) order in the magnetic kagom\'e metal FeGe, we study the single-orbital $t$-$U$-$V_1$-$V_2$ model on the kagom\'e lattice, where $U$, $V_1$, and $V_2$ are the onsite, nearest neighbor, and next-nearest-neighbor Coulomb repulsions, respectively. When the Fermi level lies in the flat band, the instability toward ferromagnetic (FM) order gives rise to a FM half-metal at sufficiently large onsite $U$. Intriguingly, at band filling $n=17/24$, the Fermi level crosses the van Hove singularity of the spin-minority bands of the half-metal. We show that, due to the unique geometry and sublattice interference on the kagom\'e lattice at van Hove singularity, the intersite Coulomb interactions $V_1$ and $V_2$ drive a real and an imaginary bond-ordered $2a_0 \times 2a_0$ CDW instability, respectively. The FM loop current CDW with complex bond orders is a spin-polarized Chern insulator exhibiting the quantum anomalous Hall effect. The bond fluctuations are found to be substantially enhanced compared to the corresponding nonmagnetic kagom\'e metals at van Hove filling, providing a concrete model realization of the bond-ordered CDWs, including the FM loop current CDW, over the onsite charge density ordered states. When the spins are partially polarized, we find that the formation of bond-ordered CDWs enhances substantially the ordered magnetic moments. These findings provide physical insights for the emergence of loop-current and bond-ordered CDW and their interplay with magnetism on the kagom\'e lattice, with possible connections to the magnetic kagom\'e metal FeGe.

Published
2024

13. Note on Bulk Reconstruction in AdS$_3$/WCFT$_2$

Author

Lin, Yu-han and Chen, Bin

Subjects
High Energy Physics - Theory
Abstract

The bulk reconstructions in AdS/CFT and its cousins are essential to understand the holographic nature of quantum gravity. In this work, we try to study the bulk reconstruction in the AdS$_3$/WCFT$_2$ correspondence. After deriving the bulk-boundary propagator, which is different from the usual one in AdS/CFT, we define the bulk proto-scalar field by using the Virasoro-Kac-Moody symmetry in two different ways. One is to impose the bulk primary conditions on the field and construct the field algebraically. The other is to use the bulk-boundary vacuum OPE block, which can be read by applying the diffeomorphism preserving the CSS boundary conditions. Two approaches lead to consistent picture., Comment: 20 pages

Published
2019
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17. Genome-Wide Identification and Role of the bHLH Gene Family in Dendrocalamus latiflorus Flowering Regulation.

Author

Zeng, Mei-Yin, Zhu, Peng-Kai, Tang, Yu, Lin, Yu-Han, He, Tian-You, Rong, Jun-Dong, Zheng, Yu-Shan, and Chen, Ling-Yan

Subjects
TRANSCRIPTION factors, FLOWER development, GENE families, GENE amplification, PROMOTERS (Genetics)
Abstract

The basic helix–loop–helix (bHLH) gene family is a crucial regulator in plants, orchestrating various developmental processes, particularly flower formation, and mediating responses to hormonal signals. The molecular mechanism of bamboo flowering regulation remains unresolved, limiting bamboo breeding efforts. In this study, we identified 309 bHLH genes and divided them into 23 subfamilies. Structural analysis revealed that proteins in specific DlbHLH subfamilies are highly conserved. Collinearity analysis indicates that the amplification of the DlbHLH gene family primarily occurs through segmental duplications. The structural diversity of these duplicated genes may account for their functional variability. Many DlbHLHs are expressed during flower development, indicating the bHLH gene's significant role in this process. In the promoter region of DlbHLHs, different homeopathic elements involved in light response and hormone response co-exist, indicating that DlbHLHs are related to the regulation of the flower development of D. latiflorus. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Iodinated gadolinium-gold nanomaterial as a multimodal contrast agent for cartilage tissue imaging.

Author

Lu, Cheng-Hsiu, Lian, Wei-Shiung, Wu, Re-Wen, Lin, Yu-Han, Su, Chia-Hao, Chen, Chuan-Lin, Tai, Ming-Hong, Chen, Yu-Shan, Wang, Shao-Yu, Chen, Chao-Cheng, and Wang, Feng-Sheng

Subjects
COMPUTED tomography, CONTRAST media, DRUG carriers, ATOMIC number, PATHOLOGICAL physiology
Abstract

Cartilage damage, a common cause of osteoarthritis, requires medical imaging for accurate diagnosis of pathological changes. However, current instruments can acquire limited imaging information due to sensitivity and resolution issues. Therefore, multimodal imaging is considered an alternative strategy to provide valuable images and analyzes from different perspectives. Among all biomaterials, gold nanomaterials not only exhibit outstanding benefits as drug carriers, in vitro diagnostics, and radiosensitizers, but are also widely used as contrast agents, particularly for tumors. However, their potential for imaging cartilage damage is rarely discussed. In this study, we developed a versatile iodinated gadolinium-gold nanomaterial, AuNC@BSA-Gd-I, and its radiolabeled derivative, AuNC@BSA-Gd-131I, for cartilage detection. With its small size, negative charge, and multimodal capacities, the probe can penetrate damaged cartilage and be detected or visualized by computed tomography, MRI, IVIS, and gamma counter. Additionally, the multimodal imaging potential of AuNC@BSA-Gd-I was compared to current multifunctional gold nanomaterials containing similar components, including anionic AuNC@BSA, AuNC@BSA-I, and AuNC@BSA-Gd as well as cationic AuNC@CBSA. Due to their high atomic numbers and fluorescent emission, AuNC@BSA nanomaterials could provide fundamental multifunctionality for imaging. By further modifying AuNC@BSA with additional imaging materials, their application could be extended to various types of medical imaging instruments. Nonetheless, our findings showed that each of the current nanomaterials exhibited excellent abilities for imaging cartilage with their predominant imaging modalities, but their versatility was not comparable to that of AuNC@BSA-Gd-I. Thus, AuNC@BSA-Gd-I could be served as a valuable tool in multimodal imaging strategies for cartilage assessment. [ABSTRACT FROM AUTHOR]

Published
2024
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28. Downregulation of Salt-Inducible Kinase 3 Enhances CCL24 Activation in the Placental Environment with Preeclampsia.

Author

Tsai, Hsing-Fen, Tseng, Ching-Fen, Liang, Yu-Ling, Wu, Pei-Ying, Huang, Lan-Yin, Lin, Yu-Han, Lin, Li-Hsuan, Lin, Chang-Ni, and Hsu, Keng-Fu

Subjects
TROPHOBLAST, PREECLAMPSIA, PLACENTA, GENE expression, PROTEIN kinases, PATHOLOGICAL physiology, INTERLEUKIN-10
Abstract

Preeclampsia (PE) remains one of the leading causes of maternal and perinatal morbidity and mortality. However, the exact pathophysiology of PE is still unclear. The recent widely accepted notion that successful pregnancy relies on maternal immunological adaptation is of utmost importance. Moreover, salt-inducible kinase 3 (SIK3) is an AMP-activated protein kinase-related kinase, and it has reported a novel regulator of energy and inflammation, and its expression related with some diseases. To explore whether SIK3 expression correlated with PE, we analyzed SIK3 gene expression and its association with PE through GEO datasets. We identified that SIK3 was significantly downregulated in PE across four datasets (p < 0.05), suggesting that SIK3 participated in the pathogenesis of PE. We initially demonstrated the significant downregulation of SIK3 in trophoblast cells of PE. SIK3 downregulation was positively correlated with the increased number of CD204(+) cells in in vivo and in vitro experiments. The increased number of CD204(+) cells could inhibit the migration and invasion of trophoblast cells. We then clarified the potential mechanism of PE with SIK3 downregulation: M2 skewing was triggered by trophoblast cells derived via the CCL24/CCR3 axis, leading to an increase in CD204(+) cells, a decrease in phagocytosis, and the production of IL-10 at the maternal–fetal interface of the placenta with PE. IL-10 further contributed to a reduction in the migration and invasion of trophoblast cells. It also established a feedback loop wherein trophoblast cells increased CCL24 production to maintain M2 dominance in the placental environments of PE. [ABSTRACT FROM AUTHOR]

Published
2024
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36. Additional file 1 of Effects of temperature, rainfall, and El Niño Southern Oscillations on dengue-like-illness incidence in Solomon Islands

Author

Andhikaputra, Gerry, Lin, Yu-Han, and Wang, Yu-Chun

Abstract

Additional file 1: Supplementary Table S1. Model configuration based on Quasi Information Criterion (QIC). Supplementary Table S2. The lag specific up to six months incident rate ratios (95% confidence interval) depicting association between meteorological variables on dengue-like-illness adjusting each other by controlling ENSO category with the Quasi Information Criterion (QIC) in Guadalcanal and Western Province from 2015 to 2018. Supplementary Table S3. The incident rate ratios (95% confidence interval) depicting association between ENSO category (El Niño and La Niña, vs. neutral) on dengue-like-illness by controlling temperature and precipitation in Guadalcanal and Western Province from 2015 to 2018.

Published
2023
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37. A Comparison of Dual-energy CT Images by Deep Learning Based Image Reconstruction and Conventional Reconstruction in Patients with Head and Neck Cancer

Author

Lin, Yu-Han

Subjects
Comparative studies, Head and neck, Artificial Intelligence, Technology assessment, Image manipulation / Reconstruction, CT, Cancer
Abstract

Purpose Methods and materials Results Conclusion Personal information and conflict of interest References, Purpose: Deep learning-based image reconstruction (DLIR) has recently received much attention in CT [1-3]; however, such applications in a patient with head and neck cancer have not yet been studied which is composed of a large number of fine structures and...

Published
2023
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