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1. Entangling four logical qubits beyond break-even in a nonlocal code

Author

Hong, Yifan, Durso-Sabina, Elijah, Hayes, David, and Lucas, Andrew

Subjects
Quantum Physics
Abstract

Quantum error correction protects logical quantum information against environmental decoherence by encoding logical qubits into entangled states of physical qubits. One of the most important near-term challenges in building a scalable quantum computer is to reach the break-even point, where logical quantum circuits on error-corrected qubits achieve higher fidelity than equivalent circuits on uncorrected physical qubits. Using Quantinuum's H2 trapped-ion quantum processor, we encode the GHZ state in four logical qubits with fidelity $ 99.5 \pm 0.15 \% \le F \le 99.7 \pm 0.1\% $ (after postselecting on over 98% of outcomes). Using the same quantum processor, we can prepare an uncorrected GHZ state on four physical qubits with fidelity $97.8 \pm 0.2 \% \le F\le 98.7\pm 0.2\%$. The logical qubits are encoded in a $[\![ 25,4,3 ]\!]$ Tanner-transformed long-range-enhanced surface code. Logical entangling gates are implemented using simple swap operations. Our results are a first step towards realizing fault-tolerant quantum computation with logical qubits encoded in geometrically nonlocal quantum low-density parity check codes., Comment: 13 pages, 9 figures, 1 table. v2 changes: added classical simulation data and appendices

Published
2024

2. Exploring and Unleashing the Power of Large Language Models in Automated Code Translation

Author

Yang, Zhen, Liu, Fang, Yu, Zhongxing, Keung, Jacky Wai, Li, Jia, Liu, Shuo, Hong, Yifan, Ma, Xiaoxue, Jin, Zhi, and Li, Ge

Subjects
Computer Science - Software Engineering, Computer Science - Artificial Intelligence
Abstract

Code translation tools (transpilers) are developed for automatic source-to-source translation. Although learning-based transpilers have shown impressive enhancement against rule-based counterparts, owing to their task-specific pre-training on extensive monolingual corpora. Their current performance still remains unsatisfactory for practical deployment, and the associated training resources are also prohibitively expensive. LLMs pre-trained on huge amounts of human-written code/text have shown remarkable performance in many code intelligence tasks due to their powerful generality, even without task-specific training. Thus, LLMs can potentially circumvent the above limitations, but they have not been exhaustively explored yet. This paper investigates diverse LLMs and learning-based transpilers for automated code translation tasks, finding that: although certain LLMs have outperformed current transpilers, they still have some accuracy issues, where most of the failures are induced by a lack of comprehension of source programs, missing clear instructions on I/O types in translation, and ignoring discrepancies between source and target programs. Enlightened by the above findings, we further propose UniTrans, a Unified code Translation framework, applicable to various LLMs, for unleashing their power in this field. Specifically, UniTrans first crafts a series of test cases for target programs with the assistance of source programs. Next, it harnesses the above auto-generated test cases to augment the code translation and then evaluate their correctness via execution. Afterward, UniTrans further (iteratively) repairs incorrectly translated programs prompted by test case execution results. Extensive experiments are conducted on six settings of translation datasets between Python, Java, and C++. Three recent LLMs of diverse sizes are tested with UniTrans, and all achieve substantial improvements., Comment: 23 pages, 7 figures, accepted by FSE'24 (2024 ACM International Conference on the Foundations of Software Engineering)

Published
2024

3. Quantum memory at nonzero temperature in a thermodynamically trivial system

Author

Hong, Yifan, Guo, Jinkang, and Lucas, Andrew

Subjects
Quantum Physics, Condensed Matter - Statistical Mechanics
Abstract

Passive error correction protects logical information forever (in the thermodynamic limit) by updating the system based only on local information and few-body interactions. A paradigmatic example is the classical two-dimensional Ising model: a Metropolis-style Gibbs sampler retains the sign of the initial magnetization (a logical bit) for thermodynamically long times in the low-temperature phase. Known models of passive quantum error correction similarly exhibit thermodynamic phase transitions to a low-temperature phase wherein logical qubits are protected by thermally stable topological order. Here, in contrast, we show that certain families of constant-rate classical and quantum low-density parity check codes have no thermodynamic phase transitions at nonzero temperature, but nonetheless exhibit ergodicity-breaking dynamical transitions: below a critical nonzero temperature, the mixing time of local Gibbs sampling diverges in the thermodynamic limit. Slow Gibbs sampling of such codes enables fault-tolerant passive quantum error correction using finite-depth circuits. This strategy is well suited to measurement-free quantum error correction and may present a desirable experimental alternative to conventional quantum error correction based on syndrome measurements and active feedback., Comment: 32 pages, 9 figures, 1 table; v2 changes: added section on tree-codes, fixed typos

Published
2024

4. Quantum teleportation implies symmetry-protected topological order

Author

Hong, Yifan, Stephen, David T., and Friedman, Aaron J.

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

We constrain a broad class of teleportation protocols using insights from locality. In the "standard" teleportation protocols we consider, all outcome-dependent unitaries are Pauli operators conditioned on linear functions of the measurement outcomes. We find that all such protocols involve preparing a "resource state" exhibiting symmetry-protected topological (SPT) order with Abelian protecting symmetry $\mathcal{G}_{k}= (\mathbb{Z}_2 \times \mathbb{Z}_2)^k$. The $k$ logical states are teleported between the edges of the chain by measuring the corresponding $2k$ string order parameters in the bulk and applying outcome-dependent Paulis. Hence, this single class of nontrivial SPT states is both necessary and sufficient for the standard teleportation of $k$ qubits. We illustrate this result with several examples, including the cluster state, variants thereof, and a nonstabilizer hypergraph state., Comment: 34 pages, 8 figures; v2 changes: added summary of main assumptions and results

Published
2023

5. Long-range-enhanced surface codes

Author

Hong, Yifan, Marinelli, Matteo, Kaufman, Adam M., and Lucas, Andrew

Subjects
Quantum Physics
Abstract

The surface code is a quantum error-correcting code for one logical qubit, protected by spatially localized parity checks in two dimensions. Due to fundamental constraints from spatial locality, storing more logical qubits requires either sacrificing the robustness of the surface code against errors or increasing the number of physical qubits. We bound the minimal number of spatially nonlocal parity checks necessary to add logical qubits to a surface code while maintaining, or improving, robustness to errors. We asymptotically saturate this bound using a family of hypergraph product codes, interpolating between the surface code and constant-rate low-density parity-check codes. Fault-tolerant protocols for logical gates in the quantum code can be inherited from its classical parent codes. We provide near-term practical implementations of this code for hardware based on trapped ions or neutral atoms in mobile optical tweezers. Long-range-enhanced surface codes outperform conventional surface codes using hundreds of physical qubits and represent a practical strategy to enhance the robustness of logical qubits to errors in near-term devices., Comment: 23 pages, 15 figures; v2 changes: fixed typos and added citations; v3 changes: updated numerics and new logical gadgets

Published
2023
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6. A Rational Model of Dimension-reduced Human Categorization

Author

Hong, Yifan and Wang, Chen

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

Humans can categorize with only a few samples despite the numerous features. To mimic this ability, we propose a novel dimension-reduced category representation using a mixture of probabilistic principal component analyzers (mPPCA). Tests on the ${\tt CIFAR-10H}$ dataset demonstrate that mPPCA with only a single principal component for each category effectively predicts human categorization of natural images. We further impose a hierarchical prior on mPPCA to account for new category generalization. mPPCA captures human behavior in our experiments on images with simple size-color combinations. We also provide sufficient and necessary conditions when reducing dimensions in categorization is rational.

Published
2023

7. Locality and error correction in quantum dynamics with measurement

Author

Friedman, Aaron J., Yin, Chao, Hong, Yifan, and Lucas, Andrew

Subjects
Quantum Physics, Condensed Matter - Quantum Gases, Mathematical Physics
Abstract

The speed of light $c$ sets a strict upper bound on the speed of information transfer in both classical and quantum systems. In nonrelativistic quantum systems, the Lieb-Robinson Theorem imposes an emergent speed limit $v \hspace{-0.2mm} \ll \hspace{-0.2mm} c$, establishing locality under unitary evolution and constraining the time needed to perform useful quantum tasks. We extend the Lieb-Robinson Theorem to quantum dynamics with measurements. In contrast to the expectation that measurements can arbitrarily violate spatial locality, we find at most an $(M \hspace{-0.5mm} +\hspace{-0.5mm} 1)$-fold enhancement to the speed $v$ of quantum information, provided the outcomes of measurements in $M$ local regions are known. This holds even when classical communication is instantaneous, and extends beyond projective measurements to weak measurements and other nonunitary channels. Our bound is asymptotically optimal, and saturated by existing measurement-based protocols. We tightly constrain the resource requirements for quantum computation, error correction, teleportation, and generating entangled resource states (Bell, GHZ, quantum-critical, Dicke, W, and spin-squeezed states) from short-range-entangled initial states. Our results impose limits on the use of measurements and active feedback to speed up quantum information processing, resolve fundamental questions about the nature of measurements in quantum dynamics, and constrain the scalability of a wide range of proposed quantum technologies., Comment: 24 pages main text + 61 pages SM; main text significantly expanded, includes new Lieb-Robinson bounds, additional discussion, more clarity on main results

Published
2022

8. Quantum error correction in a time-dependent transverse field Ising model

Author

Hong, Yifan, Young, Jeremy T., Kaufman, Adam M., and Lucas, Andrew

Subjects
Quantum Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

We describe a simple quantum error correcting code built out of a time-dependent transverse field Ising model. The code is similar to a repetition code, but has two advantages: an $N$-qubit code can be implemented with a finite-depth spatially local unitary circuit, and it can subsequently protect against both $X$ and $Z$ errors if $N\ge 10$ is even. We propose an implementation of this code with 10 ultracold Rydberg atoms in optical tweezers, along with further generalizations of the code., Comment: 15 pages, 7 figures

Published
2022
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12. Fast high-fidelity multi-qubit state transfer with long-range interactions

Author

Hong, Yifan and Lucas, Andrew

Subjects
Quantum Physics
Abstract

We describe an efficient protocol to perform quantum state transfer using Hamiltonian dynamics with long-range interactions. The time to transfer $n$ qubits a sufficiently large distance is proportional to $\sqrt{n}$. Even without error correction, the fidelity of this multi-qubit state transfer process remains finite for arbitrarily well-separated qubits in the presence of uncorrelated random errors in coupling constants., Comment: 14 pages, 6 figures

Published
2020
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13. Hierarchy of linear light cones with long-range interactions

Author

Tran, Minh C., Chen, Chi-Fang, Ehrenberg, Adam, Guo, Andrew Y., Deshpande, Abhinav, Hong, Yifan, Gong, Zhe-Xuan, Gorshkov, Alexey V., and Lucas, Andrew

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

In quantum many-body systems with local interactions, quantum information and entanglement cannot spread outside of a linear light cone, which expands at an emergent velocity analogous to the speed of light. Local operations at sufficiently separated spacetime points approximately commute -- given a many-body state, $\mathcal{O}_x(t) \mathcal{O}_y |\psi\rangle \approx \mathcal{O}_y\mathcal{O}_x(t) |\psi\rangle$ with arbitrarily small errors -- so long as $|x-y|\gtrsim vt$, where $v$ is finite. Yet most non-relativistic physical systems realized in nature have long-range interactions: two degrees of freedom separated by a distance $r$ interact with potential energy $V(r) \propto 1/r^{\alpha}$. In systems with long-range interactions, we rigorously establish a hierarchy of linear light cones: at the same $\alpha$, some quantum information processing tasks are constrained by a linear light cone while others are not. In one spatial dimension, this linear light cone exists for every many-body state when $\alpha>3$ (Lieb-Robinson light cone); for a typical state chosen uniformly at random from the Hilbert space when $\alpha>\frac{5}{2}$ (Frobenius light cone); for every state of a non-interacting system when $\alpha>2$ (free light cone). These bounds apply to time-dependent systems and are optimal up to subalgebraic improvements. Our theorems regarding the Lieb-Robinson and free light cones -- and their tightness -- also generalize to arbitrary dimensions. We discuss the implications of our bounds on the growth of connected correlators and of topological order, the clustering of correlations in gapped systems, and the digital simulation of systems with long-range interactions. In addition, we show that universal quantum state transfer, as well as many-body quantum chaos, are bounded by the Frobenius light cone, and therefore are poorly constrained by all Lieb-Robinson bounds., Comment: 36 pages; 6 figures; v2: revised and expanded introduction, a few extra results; v3: minor revisions. v4: corrections in Section 7

Published
2020
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18. Corrigendum to “The necroptosis-mediated imbalance of mitochondrial dynamics is involved in DEHP-induced toxicity to immature testes via the PGAM5–DRP1 interaction” [Environ Pollut. 346 (2024) Article 123585]

Author

Zhou, Xiazhu, primary, Hong, Yifan, additional, Chen, Jing, additional, Yu, Yihang, additional, Wang, Siyuan, additional, Wei, Yuexin, additional, Long, Chunlan, additional, Shen, Lianju, additional, Wu, Shengde, additional, and Wei, Guanghui, additional

Published
2024
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19. Inhibition of DEF‐p65 Interactions as a Potential Avenue to Suppress Tumor Growth in Pancreatic Cancer.

Author

Huang, Sicong, Yang, Jiaqi, Xie, Teng, Jiang, Yangwei, Hong, Yifan, Liu, Xinyuan, He, Xuyan, Buratto, Damiano, Zhang, Dong, Zhou, Ruhong, Liang, Tingbo, and Bai, Xueli

Subjects
PANCREATIC cancer, PANCREATIC tumors, TUMOR growth, DIGESTIVE organs, PROGNOSIS
Abstract

The limited success of current targeted therapies for pancreatic cancer underscores an urgent demand for novel treatment modalities. The challenge in mitigating this malignancy can be attributed to the digestive organ expansion factor (DEF), a pivotal yet underexplored factor in pancreatic tumorigenesis. The study uses a blend of in vitro and in vivo approaches, complemented by the theoretical analyses, to propose DEF as a promising anti‐tumor target. Analysis of clinical samples reveals that high expression of DEF is correlated with diminished survival in pancreatic cancer patients. Crucially, the depletion of DEF significantly impedes tumor growth. The study further discovers that DEF binds to p65, shielding it from degradation mediated by the ubiquitin‐proteasome pathway in cancer cells. Based on these findings and computational approaches, the study formulates a DEF‐mimicking peptide, peptide‐031, designed to disrupt the DEF‐p65 interaction. The effectiveness of peptide‐031 in inhibiting tumor proliferation has been demonstrated both in vitro and in vivo. This study unveils the oncogenic role of DEF while highlighting its prognostic value and therapeutic potential in pancreatic cancer. In addition, peptide‐031 is a promising therapeutic agent with potent anti‐tumor effects. [ABSTRACT FROM AUTHOR]

Published
2024
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20. CCR7 and CD48 as Predicted Targets in Acute Rejection Related to M1 Macrophage after Pediatric Kidney Transplantation.

Author

Zhang, Jie, Pei, Jun, Yu, Chengjun, Luo, Jin, Hong, Yifan, Hua, Yi, Wei, Guanghui, and Zhu, Lele

Subjects
TRANSCRIPTION factors, IMMUNOSTAINING, LABORATORY rats, KILLER cells, GENE expression
Abstract

Background. Kidney transplantation (KT) is the best treatment for end‐stage renal disease. Although long and short‐term survival rates for the graft have improved significantly with the development of immunosuppressants, acute rejection (AR) remains a major risk factor attacking the graft and patients. The innate immune response plays an important role in rejection. Therefore, our objective is to determine the biomarkers of congenital immunity associated with AR after KT and provide support for future research. Materials and Methods. A differential expression genes (DEGs) analysis was performed based on the dataset GSE174020 from the NCBI gene Expression Synthesis Database (GEO) and then combined with the GSE5099 M1 macrophage‐related gene identified in the Molecular Signatures Database. We then identified genes in DEGs associated with M1 macrophages defined as DEM1Gs and performed gene ontology (GO) and Kyoto Encyclopedia of Genomes (KEGG) enrichment analysis. Cibersort was used to analyze the immune cell infiltration during AR. At the same time, we used the protein–protein interaction (PPI) network and Cytoscape software to determine the key genes. Dataset, GSE14328 derived from pediatric patients, GSE138043 and GSE9493 derived from adult patients, were used to verify Hub genes. Additional verification was the rat KT model, which was used to perform HE staining, immunohistochemical staining, and Western Blot. Hub genes were searched in the HPA database to confirm their expression. Finally, we construct the interaction network of transcription factor (TF)‐Hub genes and miRNA‐Hub genes. Results. Compared to the normal group, 366 genes were upregulated, and 423 genes were downregulated in the AR group. Then, 106 genes related to M1 macrophages were found among these genes. GO and KEGG enrichment analysis showed that these genes are mainly involved in cytokine binding, antigen binding, NK cell‐mediated cytotoxicity, activation of immune receptors and immune response, and activation of the inflammatory NF‐κB signaling pathway. Two Hub genes, namely CCR7 and CD48, were identified by PPI and Cytoscape analysis. They have been verified in external validation sets, originated from both pediatric patients and adult patients, and animal experiments. In the HPA database, CCR7 and CD48 are mainly expressed in T cells, B cells, macrophages, and tissues where these immune cells are distributed. In addition to immunoinfiltration, CD4+T, CD8+T, NK cells, NKT cells, and monocytes increased significantly in the AR group, which was highly consistent with the results of Hub gene screening. Finally, we predicted that 19 TFs and 32 miRNAs might interact with the Hub gene. Conclusions. Through a comprehensive bioinformatic analysis, our findings may provide predictive and therapeutic targets for AR after KT. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Association Between Occlusion Type and Etiology of Acute Intracranial Large Artery Occlusion

Author

Huang Chuming, Hong Yifan, Xu Ke, Xu Chukai, Zhang Weijie, Li Hui, Peng Guoyi, Zhang Xiaoyong, Zhang Peifeng, and Cai Chuwei

Subjects
stroke, thrombectomy, stent, intracranial large artery occlusion, intracranial atherosclerosis, Neurology. Diseases of the nervous system, RC346-429
Abstract

Objective: To investigate the diagnostic efficiency of truncal-type occlusion and branching-site occlusion in determining the etiology of intracranial large artery occlusion related acute ischemic stroke (AIS).Methods: Patients with intracranial large artery occlusion related AIS who received stent retriever (SR) thrombectomy from November 2014 to June 2019 were included in the study. All patients underwent angiography before SR thrombectomy, which was used to evaluate the occlusion type. Differences in the distribution of occlusion types in intracranial atherosclerosis (ICAS) and embolism were assessed, and the diagnostic indicators, including the area under the ROC curve (AUC), sensitivity, and specificity were calculated.Results: Of the 115 AIS patients with intracranial large artery occlusion, 42 were classified as having ICAS, and 73 having an embolism. In the ICAS group, branching-site occlusion was responsible for 3 (7%) cases and truncal-type occlusion for 39 (93%) cases, while in the embolism group, branching-site occlusion was responsible for 66 (90%) cases and truncal-type occlusion for 7 (10%) cases; the difference was statistically significant (all P < 0.01). The AUC for ICAS predicted by truncal-type occlusion was 0.916, with a sensitivity of 92.86%, and specificity of 90.41%.Conclusion: Truncal-type occlusion showed a high predictability of ICAS. Determine the etiology of intracranial large artery occlusion related AIS before SR thrombectomy may be most helpful in setting up optimal endovascular treatment strategies.

Published
2020
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26. List Mode Reconstruction in X-Ray CT and SPECT Imaging

Author

Furenlid, Lars, Gmitro, Arthur, Hong, Yifan, Furenlid, Lars, Gmitro, Arthur, and Hong, Yifan

Abstract

Since the introduction of tomography imaging in the 1970s, it has become an indispensable tool in medical imaging, driving continuous advancements in pursuit of higher image quality, reduced scan time, lower radiation doses, and more recorded attributes. List mode data, which records all attributes in a list format, offers distinct advantages over binned data, including reduced storage requirements, improved data accuracy, and enhanced flexibility in reconstruction techniques. This thesis explores the application of list mode data in two tomography systems. Firstly, we present a modified filtered back projection (FBP) utilizing list mode data, which allows continuous to continuous reconstruction from imaging space to object space. To mitigate the challenges posed by the singularity of the ideal ramp filter in the spatial domain, we introduce an exponentially decaying filter as an approximation. This modified filter not only emulates the characteristics of an ideal ramp filter but also functions as an apodizing filter. We qualify the performance of the novel FBP with two imaging quality metrics by a simulated single photon emission computed tomography (SPECT) system. The results demonstrate superior reconstruction quality when using list mode data compared to binned data, with the difference being particularly pronounced under low-dose conditions. The second part of this thesis extends the application of list mode data to a computed tomography (CT) system. To accommodate three-dimensional scan geometries, we develop a reconstruction method based on maximum likelihood estimation, subsequently transforming it into an iterative algorithm to obtain an analytical solution. We validate the algorithm's effectiveness using both a 3D Shepp-Logan phantom and a 3D patient phantom in a helical CT system. In the reconstruction process, graphics processing units (GPU) were applied to accelerate the computational speed. To present comprehensive results, the results under different

Published
2023

30. All-MEMS Lidar Using Hybrid Optical Architecture with Digital Micromirror Devices and a 2D-MEMS Mirror

Author

Kang, Eunmo, primary, Choi, Heejoo, additional, Hellman, Brandon, additional, Rodriguez, Joshua, additional, Smith, Braden, additional, Deng, Xianyue, additional, Liu, Parker, additional, Lee, Ted, additional, Evans, Eric, additional, Hong, Yifan, additional, Guan, Jiafan, additional, Luo, Chuan, additional, and Takashima, Yuzuru, additional

Published
2022
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32. Impact of Body Temperature in Patients With Acute Basilar Artery Occlusion: Analysis of the BASILAR Database

Author

Zhang, Wenbin, primary, Li, Fengli, additional, Zhang, Cai, additional, Lei, Bo, additional, Deng, Wei, additional, Zeng, Hongliang, additional, Yu, Yang, additional, Wu, Junxiong, additional, Peng, Daizhou, additional, Tian, Zhenxuan, additional, Zhu, Xiurong, additional, Hu, Zhizhou, additional, Hong, Yifan, additional, Li, Wenbo, additional, Ge, Hanming, additional, Xu, Xinwei, additional, Ju, Dongsheng, additional, Yang, Shunyu, additional, Pan, Chengde, additional, Zi, Wenjie, additional, and Wang, Shouchun, additional

Published
2022
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34. A New Optical Configuration for the Surface Encoder with an Expanded Z-Directional Measuring Range

Author

Hong, Yifan, Sato, Ryo, Shimizu, Yuki, Matsukuma, Hiraku, Gao, Wei, Hong, Yifan, Sato, Ryo, Shimizu, Yuki, Matsukuma, Hiraku, and Gao, Wei

Abstract

This paper proposes a new optical configuration for a two-axis surface encoder that can measure the in-plane (X-axis) and out-of-plane (Z-axis) displacements of a positioning stage. The two-axis surface encoder is composed of a scale grating and a sensor head. A transparent grating is employed in the sensor head for measurement of the Z-directional displacement of the scale grating based on the Fizeau-type measurement method; a reference beam reflected from the transparent grating and the zeroth-order diffracted beam from the scale grating are superimposed to generate an interference signal. A pair of prisms and a beam splitter are also employed in the sensor head, so that the positive and negative first-order diffracted beams can be superimposed over a long working distance to generate an interference signal for measurement of the X-directional displacement of the scale grating. Focusing on the new, extended Z-directional measurement mechanism, proof-of-principle experiments were carried out to verify the feasibility of the proposed optical configuration for the surface encoder that can measure the uni-directional displacements of a scale grating along the X- and Z-axis. Experimental results from the developed optical configuration demonstrated the achievement of a Z-directional measuring range of +/- 1.5 mm.

Published
2022

35. Reduction of Crosstalk Errors in a Surface Encoder Having a Long Z-Directional Measuring Range

Author

Hong, Yifan, Sato, Ryo, 1000070606384, Shimizu, Yuki, Matsukuma, Hiraku, Shimizu, Hiroki, Gao, Wei, Hong, Yifan, Sato, Ryo, 1000070606384, Shimizu, Yuki, Matsukuma, Hiraku, Shimizu, Hiroki, and Gao, Wei

Abstract

A modified two-axis surface encoder is proposed to separately measure both the in-plane displacement and the Z-directional out-of-plane displacement with minor crosstalk errors. The surface encoder is composed of a scale grating and a small-sized sensor head. In the modified surface encoder, the measurement laser beam from the sensor head is designed to be projected onto the scale grating at a right angle. For measurement of the X- and Y-directional in-plane scale displacement, the positive and negative first-order diffracted beams from the scale grating are superimposed on each other in the sensor head, producing interference signals. On the other hand, the Z-directional out-of-plane scale displacement is measured based on the principle of a Michelson-type interferometer. To avoid the influence of reflection from the middle area of the transparent grating, which causes periodic crosstalk errors in the previous research, a specially fabricated transparent grating with a hole in the middle is employed in the newly designed optical system. A prototype sensor head is constructed, and basic performances of the modified surface encoder are tested by experiments.

Published
2022

37. Noninvasive Low-Frequency Pulsed Focused Ultrasound Therapy for Rheumatoid Arthritis in Mice

Author

Hu, Xuqiao, primary, Li, Fei, additional, Zeng, Jieying, additional, Zhou, Zhenru, additional, Wang, Zhaoyang, additional, Chen, Jing, additional, Cao, Dongyan, additional, Hong, Yifan, additional, Huang, Laixin, additional, Chen, Yongsheng, additional, Xu, Jinfeng, additional, Dong, Fajin, additional, Yu, Rongmin, additional, and Zheng, Hairong, additional

Published
2022
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42. Association Between Occlusion Type and Etiology of Acute Intracranial Large Artery Occlusion

Author

Zhang Peifeng, Zhang Weijie, Peng Guoyi, Huang Chuming, Zhang Xiaoyong, Cai Chuwei, Hong Yifan, Xu Chukai, Li Hui, and Xu Ke

Subjects
medicine.medical_specialty, medicine.medical_treatment, intracranial atherosclerosis, intracranial large artery occlusion, lcsh:RC346-429, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Occlusion, medicine, Stroke, lcsh:Neurology. Diseases of the nervous system, Original Research, medicine.diagnostic_test, business.industry, Large artery occlusion, Stent, medicine.disease, stroke, Neurology, Embolism, thrombectomy, Angiography, Etiology, Cardiology, stent, Neurology (clinical), Intracranial Atherosclerosis, business, 030217 neurology & neurosurgery
Abstract

Objective: To investigate the diagnostic efficiency of truncal-type occlusion and branching-site occlusion in determining the etiology of intracranial large artery occlusion related acute ischemic stroke (AIS). Methods: Patients with intracranial large artery occlusion related AIS who received stent retriever (SR) thrombectomy from November 2014 to June 2019 were included in the study. All patients underwent angiography before SR thrombectomy, which was used to evaluate the occlusion type. Differences in the distribution of occlusion types in intracranial atherosclerosis (ICAS) and embolism were assessed, and the diagnostic indicators, including the area under the ROC curve (AUC), sensitivity, and specificity were calculated. Results: Of the 115 AIS patients with intracranial large artery occlusion, 42 were classified as having ICAS, and 73 having an embolism. In the ICAS group, branching-site occlusion was responsible for 3 (7%) cases and truncal-type occlusion for 39 (93%) cases, while in the embolism group, branching-site occlusion was responsible for 66 (90%) cases and truncal-type occlusion for 7 (10%) cases; the difference was statistically significant (all P < 0.01). The AUC for ICAS predicted by truncal-type occlusion was 0.916, with a sensitivity of 92.86%, and specificity of 90.41%. Conclusion: Truncal-type occlusion showed a high predictability of ICAS. Determine the etiology of intracranial large artery occlusion related AIS before SR thrombectomy may be most helpful in setting up optimal endovascular treatment strategies.

Published
2020

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