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206 results on '"Nie, Xiaoyu"'

1. Efficient Creation of Ultracold Ground State $^{6}\textrm{Li}^{40}\textrm{K}$ Polar Molecules

Author

He, Canming, Nie, Xiaoyu, Avalos, Victor, Botsi, Sofia, Kumar, Sunil, Yang, Anbang, and Dieckmann, Kai

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

We report the creation of ultracold ground state $^{6}\textrm{Li}^{40}\textrm{K}$ polar molecules with high efficiency. Starting from weakly-bound molecules state, stimulated Raman adiabatic passage (STIRAP) is adopted to coherently transfer the molecules to their singlet ro-vibrational ground state $|\textrm{X}^{1}\Sigma^{+},v=0,J=0>$. By employing a singlet STIRAP pathway and low-phase-noise narrow-linewidth lasers, we observed a one-way transfer efficiency of 96(4)\,\%. Held in an optical dipole trap, the lifetime of the ground-state molecules is measured to be 5.0(3)\,ms. The large permanent dipole moment of LiK is confirmed by applying a DC electric field on the molecules and performing Stark shift spectroscopy of the ground state. With recent advances in the quantum control of collisions, our work paves the way for exploring quantum many-body physics with strongly-interacting $^{6}\textrm{Li}^{40}\textrm{K}$ molecules., Comment: 6 pages, 6 figures

Published
2023

2. Multidimensional Coherent Spectroscopy of Molecular Polaritons: Langevin Approach

Author

Zhang, Zhedong, Nie, Xiaoyu, Lei, Dangyuan, and Mukame, Shaul

Subjects
Quantum Physics
Abstract

We present a microscopic theory for nonlinear optical spectroscopy of N molecules in an optical cavity. A quantum Langevin analytical expression is derived for the time- and frequency-resolved signals accounting for arbitrary numbers of vibrational excitations. We identify clear signatures of the polariton-polaron interaction from multidimensional projections of the signal, e.g., pathways and timescales. Cooperative dynamics of cavity polaritons against intramolecular vibrations is revealed, along with a cross talk between long-range coherence and vibronic coupling that may lead to localization effects. Our results further characterize the polaritonic coherence and the population transfer that is slower., Comment: 6 pages, 2 figures

Published
2022
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3. Ghost translation

Author

Ren, Wenhan, Nie, Xiaoyu, Peng, Tao, and Scully, Marlan O.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Physics - Optics
Abstract

Artificial intelligence has recently been widely used in computational imaging. The deep neural network (DNN) improves the signal-to-noise ratio of the retrieved images, whose quality is otherwise corrupted due to the low sampling ratio or noisy environments. This work proposes a new computational imaging scheme based on the sequence transduction mechanism with the transformer network. The simulation database assists the network in achieving signal translation ability. The experimental single-pixel detector's signal will be `translated' into a 2D image in an end-to-end manner. High-quality images with no background noise can be retrieved at a sampling ratio as low as 2%. The illumination patterns can be either well-designed speckle patterns for sub-Nyquist imaging or random speckle patterns. Moreover, our method is robust to noise interference. This translation mechanism opens a new direction for DNN-assisted ghost imaging and can be used in various computational imaging scenarios., Comment: 10 pages, 8 figures

Published
2022
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6. Imaging through scattering media via spatial-temporal encoded pattern illumination

Author

Zhao, Xingchen, Nie, Xiaoyu, Yi, Zhenhuan, Peng, Tao, and Scully, Marlan O.

Subjects
Physics - Optics, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Optical imaging through scattering media is a long-standing challenge. Although many approaches have been developed to focus light or image objects through scattering media, they are either invasive, restricted to stationary or slowly-moving media, or require high-resolution cameras and complex algorithms to retrieve the images. Here we introduce a computational imaging technique that can overcome these restrictions by exploiting spatial-temporal encoded patterns (STEP). We present non-invasive imaging through scattering media with a single-pixel photodetector. We show that the method is insensitive to the motions of media. We further demonstrate that our image reconstruction algorithm is much more efficient than correlation-based algorithms for single-pixel imaging, which may allow fast imaging in currently unreachable scenarios., Comment: 7 pages, 4 figures

Published
2021
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7. Deep-learned speckle pattern and its application to ghost imaging

Author

Nie, Xiaoyu, Song, Haotian, Ren, Wenhan, Zhao, Xingchen, Zhang, Zhedong, Peng, Tao, and Scully, Marlan O.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Physics - Optics
Abstract

In this paper, we present a method for speckle pattern design using deep learning. The speckle patterns possess unique features after experiencing convolutions in Speckle-Net, our well-designed framework for speckle pattern generation. We then apply our method to the computational ghost imaging system. The standard deep learning-assisted ghost imaging methods use the network to recognize the reconstructed objects or imaging algorithms. In contrast, this innovative application optimizes the illuminating speckle patterns via Speckle-Net with specific sampling ratios. Our method, therefore, outperforms the other techniques for ghost imaging, particularly its ability to retrieve high-quality images with extremely low sampling ratios. It opens a new route towards nontrivial speckle generation by referring to a standard loss function on specified objectives with the modified deep neural network. It also has great potential for applications in the fields of dynamic speckle illumination microscopy, structured illumination microscopy, x-ray imaging, photo-acoustic imaging, and optical lattices., Comment: 12 pages, 12 figures

Published
2021

9. 0.8% Nyquist computational ghost imaging via non-experimental deep learning

Author

Song, Haotian, Nie, Xiaoyu, Su, Hairong, Chen, Hui, Zhou, Yu, Zhao, Xingchen, Peng, Tao, and Scully, Marlan O.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing
Abstract

We present a framework for computational ghost imaging based on deep learning and customized pink noise speckle patterns. The deep neural network in this work, which can learn the sensing model and enhance image reconstruction quality, is trained merely by simulation. To demonstrate the sub-Nyquist level in our work, the conventional computational ghost imaging results, reconstructed imaging results using white noise and pink noise via deep learning are compared under multiple sampling rates at different noise conditions. We show that the proposed scheme can provide high-quality images with a sampling rate of 0.8% even when the object is outside the training dataset, and it is robust to noisy environments. This method is excellent for various applications, particularly those that require a low sampling rate, fast reconstruction efficiency, or experience strong noise interference., Comment: 10 pages, 6 figures

Published
2021
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10. Entangled Photons Enabled Time- and Frequency-Resolved Coherent Raman Spectroscopy in Condensed Phase Molecules

Author

Zhang, Zhedong, Peng, Tao, Nie, Xiaoyu, Agarwal, Girish S., and Scully, Marlan O.

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We develop an ultrafast frequency-resolved Raman spectroscopy with entangled photons for polyatomic molecules in condensed phases, to probe the electronic and vibrational coherences. Using quantum correlation between the photons, the signal shows the capability of both temporal and spectral resolutions that are not accessible by either classical pulses or the fields without entanglement. We develop a microscopic theory for this Raman spectroscopy, revealing the electronic coherence dynamics which often shows a rapid decay within $\sim$50fs. The heterodyne-detected Raman signal is further developed to capture the phases of electronic coherence and emission in real-time domain., Comment: 6 pages, 3 figures

Published
2021

12. Superresolving second-order correlation imaging using synthesized colored noise speckles

Author

Li, Zheng, Nie, Xiaoyu, Yang, Fan, Liu, Xiangpei, Liu, Dongyu, Dong, Xiaolong, Zhao, Xingchen, Peng, Tao, Zubairy, M. Suhail, and Scully, Marlan O.

Subjects
Physics - Optics, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

We present a novel method to synthesize non-trivial speckles that can enable superresolving second-order correlation imaging. The speckles acquire a unique anti-correlation in the spatial intensity fluctuation by introducing the blue noise spectrum to the input light fields through amplitude modulation. Illuminating objects with the blue noise speckle patterns can lead to a sub-diffraction limit imaging system with a resolution more than three times higher than first-order imaging, which is comparable to the resolving power of ninth order correlation imaging with thermal light. Our method opens a new route towards non-trivial speckle generation by tailoring amplitudes of the input light fields and provides a versatile scheme for constructing superresolving imaging and microscopy systems without invoking complicated higher-order correlations., Comment: 13 pages, 5 figures

Published
2021

13. Moving Object Captured with Pink Noise Pattern in Computational Ghost Imaging

Author

Nie, Xiaoyu, Zhao, Xingchen, Peng, Tao, and Scully, Marlan O.

Subjects
Physics - Optics, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

We develop and experimentally demonstrate an imaging method based on the pink noise pattern in the computational ghost imaging (CGI) system, which has a strong ability to photograph moving objects. To examine its unique ability and scope of application, the object oscillates with variable amplitude in horizontal axis, and the result via commonly used white noise are also measured as a comparison. We show that our method can image the object when the white noise method fails. In addition, our method uses less number of patterns, and enhances the signal-to-noise ratio (SNR) to a great extent.

Published
2020

14. Sub-Nyquist computational ghost imaging with orthonormalized colored noise pattern

Author

Nie, Xiaoyu, Zhao, Xingchen, Peng, Tao, and Scully, Marlan O.

Subjects
Physics - Optics, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Computational ghost imaging generally requires a large number of pattern illumination to obtain a high-quality image. The colored noise speckle pattern was recently proposed to substitute the white noise pattern in a variety of noisy environments and gave a significant signal-to-noise ratio enhancement even with a limited number of patterns. We propose and experimentally demonstrate here an orthonormalization approach based on the colored noise patterns to achieve sub-Nyquist computational ghost imaging. We tested the reconstructed image in quality indicators such as the contrast-to-noise ratio, the mean square error, the peak signal to noise ratio, and the correlation coefficient. The results suggest that our method can provide high-quality images while using a sampling ratio an order lower than the conventional methods., Comment: 7 pages, 7 figures

Published
2020
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15. Anti-interference Computational Ghost Imaging with Pink Noise Speckle Patterns

Author

Nie, Xiaoyu, Yang, Fan, Liu, Xiangpei, Zhao, Xingchen, Nessler, Reed, Peng, Tao, Zubairy, M. Suhail, and Scully, Marlan O.

Subjects
Physics - Optics, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

We propose a computational ghost imaging scheme using customized pink noise speckle pattern illumination. By modulating the spatial frequency amplitude of the speckles, we generate speckle patterns with a significant positive spatial correlation. We experimentally reconstruct images using our synthesized speckle patterns in the presence of a variety of noise sources and pattern distortion and shown it is robust to noise interference. The results are compared with the use of standard white noise speckle patterns. We show that our method gives good image qualities under different noise interference situations while the traditional way fails. The proposed scheme promises potential applications in underwater, dynamic, and moving target computational ghost imaging., Comment: 7 pages, 6 figures

Published
2020
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21. Bionic Design and Adsorption Performance Analysis of Vacuum Suckers.

Author

Xi, Peng, Qiao, Yanqi, Nie, Xiaoyu, and Cong, Qian

Abstract

This study addresses the problem that the traditional method is not effective in improving the adsorption performance of vacuum suckers. From the perspective of bionics, the adsorption performance of bionic suckers based on the excellent adsorption of the abalone abdominal foot was studied. A bionic sucker was designed by extracting the sealing ring structure of the abdominal foot tentacle. The bionic sucker was subjected to tensile experiments using an orthogonal experimental design, and the adsorption of the bionic sucker was simulated and analyzed to explore its adsorption mechanism. The results show that the primary and secondary factors affecting the adsorption of the sucker are the number of sealing rings, the width of sealing rings and the spacing of sealing rings. At 60% vacuum, the bionic sucker with two sealing rings, a 1.5 mm sealing ring width and 3 mm sealing ring spacing has the largest adsorption force, and its maximum adsorption force is 15.8% higher than that of the standard sucker. This study shows that the bionic sucker design can effectively improve the adsorption performance of the sucker. The bionic sucker had a different stress distribution on the sucker bottom, which resulted in greater Mises stress in the sealing ring and the surrounding area, while the Mises stress in the central area of the sucker was smaller. [ABSTRACT FROM AUTHOR]

Published
2024
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26. Exploration of the Practical Path of Labour Education in Colleges and Universities Guided by the Culture of Labour Models in the Context of the New Era.

Author

NIE Xiaoyu

Abstract

Model worker culture is the concentrated manifestation of the spirit and working style of advanced workers represented by model workers, and as an important part of China's national spirit and the spirit of the times, it embodies the core values of patriotism and reform and innovation. Strengthening the labour education of college students is necessary for colleges and universities to implement the fundamental task of establishing moral education and promoting the comprehensive development of college students, and the culture of model workers will provide live cases and rich teaching resources for the development of labour education in colleges and universities. In this paper, we will explore the practical path of labour education in colleges and universities guided by the culture of model workers in the new era, so as to establish correct values and labour concepts of college students, and help cultivate new generations with noble character and professionalism. [ABSTRACT FROM AUTHOR]

Published
2024
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36. Single-cell atlas of human infrapatellar fat pad and synovium implicates APOE signaling in osteoarthritis pathology.

Author

Tang, Su'an, Yao, Lutian, Ruan, Jianzhao, Kang, Jingliang, Cao, Yumei, Nie, Xiaoyu, Lan, Weiren, Zhu, Zhaohua, Han, Weiyu, Liu, Yongguang, Tian, Jing, Seale, Patrick, Qin, Ling, and Ding, Changhai

Subjects
KNEE pain, APOLIPOPROTEIN E, SYNOVIAL membranes, KNEE joint, FAT, OSTEOARTHRITIS
Abstract

The infrapatellar fat pad (IPFP) and synovium play essential roles in maintaining knee joint homeostasis and in the progression of osteoarthritis (OA). The cellular and transcriptional mechanisms regulating the function of these specialized tissues under healthy and diseased conditions are largely unknown. Here, single-cell and single-nuclei RNA sequencing of human IPFP and synovial tissues were performed to elucidate the cellular composition and transcriptional profile. Computational trajectory analysis revealed that dipeptidyl peptidase 4+ mesenchymal cells function as a common progenitor for IPFP adipocytes and synovial lining layer fibroblasts, suggesting that IPFP and synovium represent an integrated tissue unit. OA induced a profibrotic and inflammatory phenotype in mesenchymal lineage cells with biglycan+ intermediate fibroblasts as a major contributor to OA fibrosis. Apolipoprotein E (APOE) signaling from intermediate fibroblasts and macrophages was identified as a critical regulatory factor. Ex vivo incubation of human cartilage with soluble APOE accelerated proteoglycan degeneration. Inhibition of APOE signaling by intra-articular injection of an anti-APOE neutralizing antibody attenuated the progression of collagenase-induced OA in mice, demonstrating a detrimental effect of APOE on cartilage. Our studies provide a framework for designing further therapeutic strategies for OA by describing the cellular and transcriptional landscape of human IPFP and synovium in healthy versus OA joints. Editor's summary: Osteoarthritis (OA) is a disease of the entire joint; however, the combined role of the infrapatellar fat pad and synovium is largely unknown. Tang et al. established a single-cell transcriptomic profile of the human fat pad and synovium in knee joints and described changes in mesenchymal and immune populations between healthy and OA conditions. In silico reconstruction of cell-cell communication in the joint implicated apolipoprotein E (APOE) from intermediate fibroblasts and inflammatory macrophages in the infrapatellar fat pad as a potential driver of disease progression. Antibody-mediated blockade of APOE in a murine model of collagenase-induced arthritis further supported a role for APOE in OA pathology and warrants further study. —Molly Ogle [ABSTRACT FROM AUTHOR]

Published
2024
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37. Extracellular Vesicles in Infrapatellar Fat Pad from Osteoarthritis Patients Impair Cartilage Metabolism and Induce Senescence.

Author

Cao, Yumei, Ruan, Jianzhao, Kang, Jingliang, Nie, Xiaoyu, Lan, Weiren, Ruan, Guangfeng, Li, Jia, Zhu, Zhaohua, Han, Weiyu, Tang, Su'an, and Ding, Changhai

Subjects
EXTRACELLULAR vesicles, AGING, CELLULAR aging, CARTILAGE, KNEE, ENDOCHONDRAL ossification, KNEE osteoarthritis, CARTILAGE regeneration
Abstract

Infrapatellar fat pad (IPFP) is closely associated with the development and progression of knee osteoarthritis (OA), but the underlying mechanism remains unclear. Here, it is find that IPFP from OA patients can secret small extracellular vesicles (sEVs) and deliver them into articular chondrocytes. Inhibition the release of endogenous osteoarthritic IPFP‐sEVs by GW4869 significantly alleviated IPFP‐sEVs‐induced cartilage destruction. Functional assays in vitro demonstrated that IPFP‐sEVs significantly promoted chondrocyte extracellular matrix (ECM) catabolism and induced cellular senescence. It is further demonstrated that IPFP‐sEVs induced ECM degradation in human and mice cartilage explants and aggravated the progression of experimental OA in mice. Mechanistically, highly enriched let‐7b‐5p and let‐7c‐5p in IPFP‐sEVs are essential to mediate detrimental effects by directly decreasing senescence negative regulator, lamin B receptor (LBR). Notably, intra‐articular injection of antagomirs inhibiting let‐7b‐5p and let‐7c‐5p in mice increased LBR expression, suppressed chondrocyte senescence and ameliorated the progression of experimental OA model. This study uncovers the function and mechanism of the IPFP‐sEVs in the progression of OA. Targeting IPFP‐sEVs cargoes of let‐7b‐5p and let‐7c‐5p can provide a potential strategy for OA therapy. [ABSTRACT FROM AUTHOR]

Published
2024
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41. Practice Expense Methodology and Data Collection Research and Analysis

Author

Burgette, Lane, primary, Liu, Jodi, primary, Miller, Benjamin, primary, Wynn, Barbara, primary, Dellva, Stephanie, primary, Malsberger, Rosalie, primary, Merrell, Katie, primary, Nguyen, PhuongGiang, primary, Nie, Xiaoyu, primary, Pane, Joseph, primary, Qureshi, Nabeel, primary, Ruder, Teague, primary, Zhao, Lan, primary, and Hussey, Peter, primary

Published
2018
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44. Field-programmable-gate-array-based digital frequency stabilization of low-phase-noise diode lasers.

Author

Avalos, Victor, Nie, Xiaoyu, Yang, Anbang, He, Canming, Kumar, Sunil, and Dieckmann, Kai

Subjects
*SEMICONDUCTOR lasers, *OPTICAL resonators, *PHASE noise, *ATOMIC spectroscopy, *LASER spectroscopy
Abstract

We present the comparison of a field-programmable-gate-array (FPGA) based digital servo module with an analog counterpart for the purpose of laser frequency stabilization to a high-finesse optical cavity. The transfer functions of both the digital and analog modules for proportional–integral–derivative control are measured. For the lasers stabilized to the cavity, we measure the singe-sideband power spectral density of fast phase noise by means of an optical beat with filtered light transmitted through the cavity. The comparison between the digital and analog modules is performed for two low-phase-noise diode lasers at 1120 and 665 nm wavelengths. The performance of the digital servo module compares well to the analog one for the lowest attained levels of 30 mrad for the integrated phase noise and 10−3 for the relative noise power. The laser linewidth is determined to be in the sub-kHz regime, only limited by the high-finesse cavity. Our work exploits the versatility of the FPGA-based servo module (STEMlab) when used with open-source software and hardware modifications. We demonstrated that such modules are suitable candidates for remote-controlled low-phase-noise applications in the fields of laser spectroscopy and atomic, molecular, and optical physics. [ABSTRACT FROM AUTHOR]

Published
2023
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46. SD-Net:Spatial dual network for aerial object detection

Author

gao yangte, fukun bi, liang chen, and nie xiaoyu

Abstract

Compared with the targets in natural images, the aerial targets are often distributed in an arbitrary direction. However, the existing detectors rely on the shared features to identify and locate the targets. This leads to the inconsistency between classification and regression: the classifier needs rotation-invariant features and the regressor needs rotation-sensitive features. To solve the above problems, we propose a Spatial Dual Network (SD-Net) composed of two modules: Spatial Coordinate Attention Module (SCAM) and Polarization Dual Pyramid Module(PDPM). We construct an attention module containing convolution kernels sliding in both horizontal and vertical directions, which enables the attention module to capture channel correlation features and global spatial features in different directions. Then, in the dual pyramid, we separate the features suitable for classification and regression tasks through the polarization function to the classifier and regressor of the network, achieving more refined detection. Extensive experiments show that compared with the existing detectors, our method can achieve higher performance on two remote sensing datasets (i.e. HRSC2016 and DOTA) while maintaining high efficiency.

Published
2022

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