Search

Your search keyword '"Gao, Ping"' showing total 6,091 results
Start Over Author "Gao, Ping"
6,091 results on '"Gao, Ping"'

1. Invisible sweat sensor: ultrathin membrane mimics skin for stress monitoring

Author

Feng, Yuchen, Oktavius, Andreas Kenny, Prawoto, Reno Adley, Ko, Hing Ni, Gu, Qiao, and Gao, Ping

Subjects
Condensed Matter - Materials Science, Computer Science - Human-Computer Interaction, Physics - Biological Physics
Abstract

Epidermal skin sensors have emerged as a promising approach for continuous and noninvasive monitoring of vital health signals, but to maximize their performance, these sensors must integrate seamlessly with the skin, minimizing impedance while maintaining the skin's natural protective and regulatory functions.In this study, we introduce an imperceptible sweat sensor that achieves this seamless skin integration through interpenetrating networks formed by a porous, ultra-thin, ultra-high molecular weight polyethylene (UHMWPE) nanomembrane. Upon attachment to the skin by van der Waals force, the amphiphilic sweat extrudates infuse into the interconnected nanopores inside the hydrophobic UHWMPE nanomembrane, forming "pseudo skin" nanochannels for continuous sweat perspiration. This integration is further enhanced by the osmotic pressure generated during water evaporation. Leveraging the efficient transport of biomarkers through the "skin" channels within the porous membrane, we developed an organic electrochemical transducer (OECT) cortisol sensor via in-situ synthesis of a molecularly imprinted polymer (MIP) and poly(3,4 ethylenedioxythiophene) (PEDOT) within the nanomembrane. This demonstrates the capability to detect cortisol concentrations from 0.05 to 0.5 {\mu}M for seamless monitoring of stress levels. This work represents a significant advancement in self-adhesive sweat sensors that offer imperceptible and real-time non-invasive health monitoring capabilities.

Published
2024

2. Modular flow in JT gravity and entanglement wedge reconstruction

Author

Gao, Ping

Subjects
High Energy Physics - Theory
Abstract

It has been shown in recent works that JT gravity with matter with two boundaries has a type II$_\infty$ algebra on each side. As the bulk spacetime between the two boundaries fluctuates in quantum nature, we can only define the entanglement wedge for each side in a pure algebraic sense. As we take the semiclassical limit, we will have a fixed long wormhole spacetime for a generic partially entangled thermal state (PETS), which is prepared by inserting heavy operators on the Euclidean path integral. Under this limit, with appropriate assumptions of the matter theory, geometric notions of the causal wedge and entanglement wedge emerge in this background. In particular, the causal wedge is manifestly nested in the entanglement wedge. Different PETS are orthogonal to each other, and thus the Hilbert space has a direct sum structure over sub-Hilbert spaces labeled by different Euclidean geometries. The full algebra for both sides is decomposed accordingly. From the algebra viewpoint, the causal wedge is dual to an emergent type III$_1$ subalgebra, which is generated by boundary light operators. To reconstruct the entanglement wedge, we consider the modular flow in a generic PETS for each boundary. We show that the modular flow acts locally and is the boost transformation around the global RT surface in the semiclassical limit. It follows that we can extend the causal wedge algebra to a larger type III$_1$ algebra corresponding to the entanglement wedge. Within each sub-Hilbert space, the original type II$_\infty$ reduces to type III$_1$., Comment: 50 pages, 13 figures

Published
2024

5. Evaluating an Intervention Program Using WeChat for Patients With Chronic Obstructive Pulmonary Disease: Randomized Controlled Trial

Author

Jiang, Yuyu, Liu, Fenglan, Guo, Jianlan, Sun, Pingping, Chen, Zhongyi, Li, Jinping, Cai, Liming, Zhao, Hongqing, Gao, Ping, Ding, Zhaosheng, and Wu, Xiaoliang

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Public aspects of medicine, RA1-1270
Abstract

BackgroundThe application of telemedicine in home pulmonary rehabilitation interventions for the management of patients with chronic obstructive pulmonary disease (COPD) has achieved promising results. ObjectiveThis study aimed to develop a WeChat official account (Pulmonary Internet Explorer Rehabilitation [PeR]) based on social media. It further evaluated the effect of PeR on the quality of life, symptoms, and exercise self-efficacy of patients with COPD. MethodsThe functional modules of PeR were developed by a multidisciplinary team according to the electronic health–enhanced chronic care model (eCCM) components. A total of 106 patients were randomly selected (53 in the PeR group and 53 in the outpatient face-to-face group [FtF]). Pulmonary rehabilitation intervention was conducted for 3 months, and the outcome was observed for 3 months. The primary outcome was patient quality of life measured with the COPD assessment test (CAT). The secondary outcomes were evaluated using the modified Medical Research Council scale (mMRC), exercise self-regulatory efficacy scale (Ex-SRES), and St George’s Respiratory Questionnaire (SGRQ). ResultsThe intention-to-treat analysis was used in the study. A total of 94 participants completed the 6-month pulmonary rehabilitation program. No statistically significant differences were observed in CAT (F1,3=7.78, P=.001), Ex-SRES (F1,3=21.91, P

Published
2020
Full Text
View/download PDF

6. Novel order-level lineage of ammonia-oxidizing archaea widespread in marine and terrestrial environments

Author

Zheng, Yue, Wang, Baozhan, Gao, Ping, Yang, Yiyan, Xu, Bu, Su, Xiaoquan, Ning, Daliang, Tao, Qing, Li, Qian, Zhao, Feng, Wang, Dazhi, Zhang, Yao, Li, Meng, Winkler, Mari-K H, Ingalls, Anitra E, Zhou, Jizhong, Zhang, Chuanlun, Stahl, David A, Jiang, Jiandong, Martens-Habbena, Willm, and Qin, Wei

Subjects
Microbiology, Biological Sciences, Genetics, Life Below Water, Archaea, Ammonia, Ecosystem, RNA, Ribosomal, 16S, Oxidation-Reduction, Phylogeny, Soil, Soil Microbiology, Nitrosomirales, ammonia-oxidizing archaea, nitrification, subsurface, sponge, formate metabolism, nitrate reduction, Environmental Sciences, Technology, Biological sciences, Environmental sciences
Abstract

Ammonia-oxidizing archaea (AOA) are among the most ubiquitous and abundant archaea on Earth, widely distributed in marine, terrestrial, and geothermal ecosystems. However, the genomic diversity, biogeography, and evolutionary process of AOA populations in subsurface environments are vastly understudied compared to those in marine and soil systems. Here, we report a novel AOA order Candidatus (Ca.) Nitrosomirales which forms a sister lineage to the thermophilic Ca. Nitrosocaldales. Metagenomic and 16S rRNA gene-read mapping demonstrates the abundant presence of Nitrosomirales AOA in various groundwater environments and their widespread distribution across a range of geothermal, terrestrial, and marine habitats. Terrestrial Nitrosomirales AOA show the genetic capacity of using formate as a source of reductant and using nitrate as an alternative electron acceptor. Nitrosomirales AOA appear to have acquired key metabolic genes and operons from other mesophilic populations via horizontal gene transfer, including genes encoding urease, nitrite reductase, and V-type ATPase. The additional metabolic versatility conferred by acquired functions may have facilitated their radiation into a variety of subsurface, marine, and soil environments. We also provide evidence that each of the four AOA orders spans both marine and terrestrial habitats, which suggests a more complex evolutionary history for major AOA lineages than previously proposed. Together, these findings establish a robust phylogenomic framework of AOA and provide new insights into the ecology and adaptation of this globally abundant functional guild.

Published
2024

7. Photochemical Upcycling of Ultrastrong Polyethylene Nanomembranes into Fibrous Carbon at Ambient Conditions

Author

Sun, Yuexiang, Ma, Xin, Gu, Qiao, and Gao, Ping

Subjects
Physics - Applied Physics, Condensed Matter - Materials Science
Abstract

The escalating global issue of plastic waste accumulation, specifically polyolefins, necessitates an urgent solution for upcycling these materials into beneficial compounds. Yet, achieving such upcycling without introducing carbon dioxide into the environment remains a formidable challenge. In this study, we demonstrate an eco-friendly approach for the photochemical conversion of ultrastrong, ultratransparent, and ultrathin polyethylene membrane into fibrous carbon nanomembrane at ambient conditions. The membrane was sputter-coated with platinum and cuprous oxide nanoparticles and exposed to simulated sunlight, resulting in a porous carbon membrane decorated with Pt nanoparticles. The new carbonized nanomembrane maintained the pristine membrane's morphology. The membrane exhibited high activity (2.11 mA/cm2) for electrochemical ethanol oxidation with stability over 1000 cycles. This work holds significance for sustainable plastic waste management and the design of new polyolefin materials in a circular economy.

Published
2023

11. Operational efficiency of China’s sea-related listed companies and influencing factors: Based on the three-hierarchy Meta-frontier EBM and Tobit models

Author

ZHAO Xin, GAO Ping

Subjects
operational efficiency, ebm model, three-hierarchy meta-frontier, inefficiency decomposition, influencing factors, china, Environmental sciences, GE1-350, Biology (General), QH301-705.5
Abstract

[Objective] Considering the strategic guideline of “Ocean Power”, a scientific measurement of the operational efficiency of China’s sea-related listed companies and support for sea-related listed companies to be better and stronger are of great significance to consolidate the micro foundation of the development of the marine economy and promote the expansion of the space for the development of the blue economy. [Methods] This study used the explainable boosting machine (EBM) model based on Pearson correlation coefficient, combined with the three-hierarchy meta-frontier framework, to scientifically measure the operational efficiency of China’s sea-related listed companies during the period of 2014-2022, and further decomposed the inefficiency loss to explore its internal and external influencing factors. [Results] The study showed that: (1) Overall, the operational efficiency of Chinese sea-related listed companies was on an upward trend and showed obvious stage characteristics. (2) From the perspective of industry-ownership heterogeneity, the operational efficiency of emerging sea-related companies was leading in the early stages, but the operational efficiency of traditional sea-related companies showed a significant trend of subsequent growth; the operational efficiency of private sea-related companies was at the forefront, and basically formed a pattern of development in which private enterprises were leading and state-owned enterprises were following. (3) From the perspective of inefficiency decomposition, management inefficiency loss was the key reason affecting the improvement of operational efficiency of sea-related listed companies, followed by industrial heterogeneity efficiency loss and ownership heterogeneity efficiency loss. (4) Based on the analysis of influencing factors, the management inefficiency loss of sea-related listed companies was significantly negatively correlated with enterprise size and positively correlated with business solvency, while the level of regional economic development significantly and negatively affected their technical inefficiency loss. [Conclusion] During the 14th Five Year Plan period, we should further optimize the layout of the marine industry, improve the market-oriented development environment, and enhance the management level of the enterprises, to explore the effective path to promoting the operational efficiency of sea-related listed companies.

Published
2024
Full Text
View/download PDF

13. Commuting SYK: a pseudo-holographic model

Author

Gao, Ping

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

In this work, we study a type of commuting SYK model in which all terms in the Hamiltonian are commutative to each other. Because of the commutativity, this model has a large number of conserved charges and is integrable. After the ensemble average of random couplings, we can solve this model exactly in any $N$. Though this integral model is not holographic, we do find that it has some holography-like features, especially the near-perfect size winding in high temperatures. Therefore, we would like to call it pseudo-holographic. We also find that the size winding of this model has a narrowly peaked size distribution, which is different from the ordinary SYK model. We apply the traversable wormhole teleportation protocol in the commuting SYK model and find that the teleportation has a few features similar to the semiclassical traversable wormhole but in different parameter regimes. We show that the underlying physics is not entirely determined by the size-winding mechanism but involves the peaked-size mechanism and thermalization. Lastly, we comment on the recent simulation of the dynamics of traversable wormholes on Google's quantum processor., Comment: 48 pages, 8 figures, 2 tables

Published
2023

14. Geometric and Dynamic Properties of Entangled Polymer Chains in Athermal Solvents: A Coarse-Grained Molecular Dynamics Study

Author

Wang, Jiayi and Gao, Ping

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We used a coarse-grained model to study the geometric and dynamic properties of flexible entangled polymer chains dissolved in explicit athermal solvents. Our simulations successfully reproduced the geometrical properties including the scaling relationships between mean-square end-to-end distance $$, chain entanglement lengths $N_{e}$ and concentration $\Phi$. Specifically, we find that $\sim N*\Phi^{-1/4}$,$N_{e} = 30.01\Phi^{-5/4}+31.23$. Dynamically, our model confirmed the ratio of the dynamic critical entanglement $N_{c}$ and the geometric entanglement length $N_{e}$ is constant, with $N_{c}/N_{e} = 5\sim 6$. To account for the local swelling effect for chains confined in athermal solvents, we treated the chains using the concept of blobs where each blob occupies a volume $\Omega_{b}$, with length $g$. Direct MD simulations and scaling analysis showed that $g \sim \Phi^{-25/36}$, $\Omega_{b}\sim\Phi^{-5/4}$. Using these together with the concentration dependent packing length $p \sim \Phi^{-5/12}$, we obtained a modified the Lin-Noolandi ansatz for concentrated flexible polymer chains in athermal solvents: $G \sim \frac{\Phi}{\left(N_{e} / g\right) \Omega_{b}} \sim \Phi^{-2.28}$. We demonstrate this modified ansatz agrees well with our coarse-grained numerical simulations., Comment: 9 pages, 10 figures

Published
2023

15. Research on Mediating Mechanism of Psychological Health and Professionalism of Civil Aviation Pilots

Author

Gao, Ping, Zhang, Chunyang, Liu, Weiran, Zhang, Yuan, Chen, Yanqiu, Striełkowski, Wadim, Editor-in-Chief, Black, Jessica M., Series Editor, Butterfield, Stephen A., Series Editor, Chang, Chi-Cheng, Series Editor, Cheng, Jiuqing, Series Editor, Dumanig, Francisco Perlas, Series Editor, Al-Mabuk, Radhi, Series Editor, Scheper-Hughes, Nancy, Series Editor, Urban, Mathias, Series Editor, Webb, Stephen, Series Editor, Rad, Dana, editor, Chew, Fong Peng, editor, Hutagalung, Fonny Dameaty, editor, and Birkök, Cüneyt, editor

Published
2024
Full Text
View/download PDF

25. An effective field theory for non-maximal quantum chaos

Author

Gao, Ping and Liu, Hong

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

In non-maximally quantum chaotic systems, the exponential behavior of out-of-time-ordered correlators (OTOCs) results from summing over exchanges of an infinite tower of higher "spin" operators. We construct an effective field theory (EFT) to capture these exchanges in $(0+1)$ dimensions. The EFT generalizes the one for maximally chaotic systems, and reduces to it in the limit of maximal chaos. The theory predicts the general structure of OTOCs both at leading order in the $1/N$ expansion ($N$ is the number of degrees of freedom), and after resuming over an infinite number of higher order $1/N$ corrections. These general results agree with those previously explicitly obtained in specific models. We also show that the general structure of the EFT can be extracted from the large $q$ SYK model., Comment: 81 pages, 10 figures

Published
2023

29. Many-Body Quantum Teleportation via Operator Spreading in the Traversable Wormhole Protocol

Author

Schuster, Thomas, Kobrin, Bryce, Gao, Ping, Cong, Iris, Khabiboulline, Emil T, Linke, Norbert M, Lukin, Mikhail D, Monroe, Christopher, Yoshida, Beni, and Yao, Norman Y

Subjects
Quantum Physics, Atomic, Molecular and Optical Physics, Physical Sciences, Astronomical and Space Sciences, Condensed Matter Physics, Physical sciences
Abstract

By leveraging shared entanglement between a pair of qubits, one can teleport a quantum state from one particle to another. Recent advances have uncovered an intrinsically many-body generalization of quantum teleportation, with an elegant and surprising connection to gravity. In particular, the teleportation of quantum information relies on many-body dynamics, which originate from strongly interacting systems that are holographically dual to gravity; from the gravitational perspective, such quantum teleportation can be understood as the transmission of information through a traversable wormhole. Here, we propose and analyze a new mechanism for many-body quantum teleportation - dubbed peaked-size teleportation. Intriguingly, peaked-size teleportation utilizes precisely the same type of quantum circuit as traversable wormhole teleportation yet has a completely distinct microscopic origin: It relies upon the spreading of local operators under generic thermalizing dynamics and not gravitational physics. We demonstrate the ubiquity of peaked-size teleportation, both analytically and numerically, across a diverse landscape of physical systems, including random unitary circuits, the Sachdev-Ye-Kitaev model (at high temperatures), one-dimensional spin chains, and a bulk theory of gravity with stringy corrections. Our results pave the way toward using many-body quantum teleportation as a powerful experimental tool for (i) characterizing the size distributions of operators in strongly correlated systems and (ii) distinguishing between generic and intrinsically gravitational scrambling dynamics. To this end, we provide a detailed experimental blueprint for realizing many-body quantum teleportation in both trapped ions and Rydberg atom arrays; effects of decoherence and experimental imperfections are analyzed.

Published
2022

40. Construction of silver-coated high translucent zirconia implanting abutment material and its property of antibacterial

Author

Min Peng, Jun-Lan Chuan, Gao-ping Zhao, and Qiang Fu

Subjects
Nano-Ag, aluminosilicate, implanting abutment, high translucent zirconia, antibacterial property, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5
Abstract

AbstractHigh translucent zirconia (HTZ) has excellent mechanical properties, biocompatibility, and good semi-translucency making it an ideal material for aesthetic anterior dental implant abutments without antibacterial properties. In the oral environment, the surface of the abutment material is susceptible to microbial adhesion and biofilm formation, which can lead to infection or peri-implantitis and even implant failure. This study aims to promote the formation of a biological seal at the implant-soft tissue interface by modifying the HTZ surface, using the load-bearing capacity of the aluminosilicate porous structure and the broad-spectrum antibacterial effect of silver nanoparticles to prevent peri-implant bacterial infection and inflammation and to improve the success rate and prolong the use of the implant. FE-SEM (field emission scanning electron microscopes), EDS (energy dispersive spectroscopy), and XPS (X-ray photoelectron spectroscopy) results showed that aluminosilicate non-vacuum sintering can form open micro- and nanoporous structures on HTZ surfaces, and that porous aluminosilicate coatings obtain a larger number, smaller size, and more uniformly shaped silver nanoparticles than smooth aluminosilicate coatings, and could be deposited deeper in the coating. The ICP-AES (inductively coupled plasma-atomic emission spectroscopy) results showed that the early silver ion release of both the smooth silver coating and the porous silver coating was obvious, the silver ion concentration released by the former was higher than that of the latter. However, the silver ion concentration released by the porous silver coating was higher than that of the smooth coating when the release slowed down. Both smooth and porous silver coatings both inhibited E. coli (Escherichia coli), S. aureus (Staphylococcus aureus), and L. acidophilus (L. acidophilus), and porous silver coatings had stronger antibacterial properties. The silver coating was successfully constructed on the surface of HTZ, through aluminium silicate sintering and silver nitrate solution impregnation. It was found that the high concentration environment of silver nitrate solution was more advantageous for nano-Ag deposition, and the non-vacuum sintered porous surface was able to obtain a larger number of nano-Ag particles with smaller sizes. The porous Ag coating exhibited superior antibacterial properties. It was suggested that the HTZ with silver coating had clinical application, and good antibacterial properties that can improve the survival rate and service life of implants.

Published
2023
Full Text
View/download PDF

41. Seeing behind black hole horizons in SYK

Author

Gao, Ping and Lamprou, Lampros

Subjects
High Energy Physics - Theory, Condensed Matter - Strongly Correlated Electrons, General Relativity and Quantum Cosmology, Quantum Physics
Abstract

We present an explicit reconstruction of the interior of an AdS$_2$ black hole in Jackiw-Teitelboim gravity, that is entirely formulated in the dual SYK model and makes no direct reference to the gravitational bulk. We do this by introducing a probe "observer" in the right wormhole exterior and using the prescription of [arXiv:2009.04476] to transport SYK operators along the probe's infalling worldline and into the black hole interior, using an appropriate SYK modular Hamiltonian. Our SYK computation recovers the precise proper time at which signals sent from the left boundary are registered by our observer's apparatus inside the wormhole. The success of the computation relies on the universal properties of SYK and we outline a promising avenue for extending it to higher dimensions and applying it to the computation of scattering amplitudes behind the horizon., Comment: 63 pages, 12 figures

Published
2021
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results