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Your search keyword '"Dai, Hongfei"' showing total 29 results
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29 results on '"Dai, Hongfei"'

1. Wettability-dependent dissolution dynamics of oxygen bubbles on Ti64 substrates

Author

Dai, Hongfei, Yang, Xuegeng, Schwarzenberger, Karin, Heinrich, Julian, and Eckert, Kerstin

Subjects
Physics - Fluid Dynamics
Abstract

In this study, the dissolution of a single oxygen bubble on a solid surface, here Titianium alloy Ti64, in ultrapure water with different oxygen undersaturation levels is investigated. For that purpose, a combination of shadowgraph technique and planar laser-induced fluorescence is used to measure simultaneously the changes in bubble geometry and in the dissolved oxygen concentration around the bubble. Two different wettabilities of the Ti64 surface are adjusted by using plasma-enhanced chemical vapour deposition. The dissolution process on the solid surface involves two distinct phases, namely bouncing of the oxygen bubble at the Ti64 surface and the subsequent dissolution of the bubble, primarily by diffusion. By investigating the features of oxygen bubbles bouncing, it was found that the boundary layer of dissolved oxygen surrounding the bubble surface is redistributed by the vortices emerging during bouncing. This establishes the initial conditions for the subsequent second dissolution phase of the oxygen bubbles on the Ti64 surfaces. In this phase, the mass transfer of O2 proceeds non-homogenously across the bubble surface, leading to an oxygen accumulation close to the Ti64 surface. We further show that the main factor influencing the differences in the dynamics of O2 bubble dissolution is the variation in the surface area of the bubbles available for mass transfer, which is determined by the substrate wettability. As a result, dissolution proceeds faster at the hydrophilic Ti64 surface due to the smaller contact angle, which provokes a larger surface area.

Published
2024

4. A Tampering Risk of Fiber-Based Frequency Synchronization Networks and Its Countermeasures

Author

Dai, Hongfei, Chen, Yufeng, Li, Wenlin, Wang, Fangmin, Wang, Guan, Pang, Zhongwang, and Wang, Bo

Subjects
Physics - Instrumentation and Detectors
Abstract

Fiber optic networks are used worldwide and have been regarded as excellent media for transmitting time-frequency (TF) signals. In the past decades, fiber-based TF synchronization techniques have been extensively studied. Instruments based on these techniques have been successfully applied. With the increasing application of TF synchronization instruments, their security has become an important issue. Unfortunately, the security risks of fiber-based frequency synchronization (FbFS) instruments have been overlooked. This paper proposes a frequency tampering method called "frequency lens". On a 200 km fiber link, we demonstrate a frequency tampering scenario using a frequency lens-enabled frequency tampering module (FTM). On the user side, the frequency value of the recovered 100 MHz signal can be stealthily altered within a range of 100 MHz-100 Hz to 100 MHz+100 Hz, while the frequency dissemination stability of the system remains normal. Related to this tampering risk, potential hazards in three different application scenarios, which rely on precise frequency references, are analyzed. Two countermeasures are also proposed to solve this tampering risk.

Published
2024

5. Time Reversal Enabled Fiber-Optic Time Synchronization

Author

Chen, Yufeng, Dai, Hongfei, Li, Wenlin, Wang, Fangmin, Wang, Bo, and Wang, Lijun

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

Over the past few decades, fiber-optic time synchronization (FOTS) has provided fundamental support for the efficient operation of modern society. Looking toward the future beyond fifth-generation/sixth-generation (B5G/6G) scenarios and very large radio telescope arrays, developing high-precision, low-complexity and scalable FOTS technology is crucial for building a large-scale time synchronization network. However, the traditional two-way FOTS method needs a data layer to exchange time delay information. This increases the complexity of system and makes it impossible to realize multiple-access time synchronization. In this paper, a time reversal enabled FOTS method is proposed. It measures the clock difference between two locations without involving a data layer, which can reduce the complexity of the system. Moreover, it can also achieve multiple-access time synchronization along the fiber link. Tests over a 230 km fiber link have been carried out to demonstrate the high performance of the proposed method.

Published
2023

7. Time shifting deviation method enhanced laser interferometry: ultrahigh precision localizing of traffic vibration using urban fiber link

Author

Wang, Guan, Pang, Zhongwang, Zhang, Bohan, Wang, Fangmin, Chen, Yufeng, Dai, Hongfei, Wang, Bo, and Wang, Lijun

Subjects
Physics - Instrumentation and Detectors
Abstract

Using fiber network as a huge sensing system will enrich monitoring methods of public infrastructures and geological disasters. With traditional cross-correlation method, laser interferometer has been used to detect and localize the vibration event. However, the random error induced by cross-correlation method limits the localization accuracy, and makes it not suitable for ultrahigh precision localizing applications. We propose a novel time shifting deviation (TSDEV) method, which has advantages over cross-correlation method in practicability and localization accuracy. Three experiments are carried out to demonstrate the novelty of the TSDEV method. In lab test, vibration localization accuracy of ~2.5 m is realized. In field tests, TSDEV method enhanced interferometry is applied to monitor the urban fiber link. Traffic vibration events on the campus road and Beijing ring road have been precisely localized and analyzed, respectively. The proposed technique will extend the function of existing urban fiber network, and better serve the future smart city., Comment: 10 pages, 8 figures, research article published in Photonics Research

Published
2021
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10. A Digital Phase Resolving Method for Fiber Optic Sensing

Author

Li, Chunyi, Pang, Zhongwang, Wang, Guan, Wang, Fangmin, Dai, Hongfei, Li, Wenlin, and Wang, Bo

Abstract

Phase is of great significance in many fields, which can be used to carry important information. In a fiber optic sensing system, phase is crucial for extracting environment information along fiber link. Therefore, the accuracy of the phase resolving result significantly influences the performance of a fiber optic sensing system. There are some widely used phase demodulation method like 3 × 3 coupler demodulation method, in-phase quadrature (IQ) demodulation method and phase generated carrier (PGC) demodulation method, which usually have an imbalance error or distortion problem. In this paper, a novel phase resolving method is proposed and used in an interferometric fiber optic sensing system. Comparison between proposed method and commercial IQ demodulator is carried out. The proposed method is proved to have a better orthogonality performance. Furthermore, the proposed method has less bandwidth limits compared with a digital IQ demodulation method, giving it a broader application.

Published
2024
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12. A Tampering Risk of Fiber-Based Frequency Synchronization Networks

Author

Dai, Hongfei, Chen, Yufeng, Li, Wenlin, Wang, Fangmin, Wang, Guan, Pang, Zhongwang, and Wang, Bo

Abstract

Fiber optic networks are used worldwide and have been regarded as excellent media for transmitting time–frequency (TF) signals. In the past decades, fiber-based TF synchronization techniques have been extensively studied. Instruments based on these techniques have been successfully applied. With the increasing application of TF synchronization instruments, their security has become an important issue. Unfortunately, the security risks of fiber-based frequency synchronization (FbFS) instruments have been overlooked. This article proposes a frequency tampering method called “frequency expander.” On a 200-km fiber link, we demonstrate a frequency tampering scenario using a frequency expander-enabled frequency tampering module (FTM). On the user side, the frequency value of the recovered 100-MHz signal can be stealthily altered within a range of 100 MHz ± 100 Hz, while the frequency dissemination stability of the system remains normal. Related to this tampering risk, potential hazards in two different application scenarios, which rely on precise frequency references, are analyzed. Two countermeasures are also proposed to solve this tampering risk.

Published
2024
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24. Ethylene inhibited sprouting of potato tubers by influencing the carbohydrate metabolism pathway

Author

Qingmin Chen, Xiaoying Yang, Dai Hongfei, and Maorun Fu

Subjects
0106 biological sciences, Sucrose, Starch phosphorylase, biology, fungi, food and beverages, Fructose, 04 agricultural and veterinary sciences, Carbohydrate metabolism, 01 natural sciences, 040501 horticulture, chemistry.chemical_compound, Invertase, chemistry, Biochemistry, biology.protein, Sucrose synthase, Original Article, Sucrose-phosphate synthase, 0405 other agricultural sciences, Sugar, 010606 plant biology & botany, Food Science
Abstract

The aim of this study was to investigate the role of ethylene to control sprouting of potatoes by observing the effect of exogenous ethylene on carbohydrate metabolism and key enzymes. The initial time of potato tuber sprouting and sprouting index were recorded, and rate of respiration, total sugar, total reducing sugar, starch, fructose, glucose, sucrose and the activities of acid invertase (AI), neutral invertase (NI), sucrose synthase (SS), sucrose phosphate synthase (SPS), starch phosphorylase and amylase during sprouting were measured. Exogenous ethylene inhibited sprouting of potato tubers. Moreover, exogenous ethylene increased respiration total sugar, AI activity, SPS activity, SS activity, and reduced sugar and assay activity. Nevertheless, starch, glucose, fructose, NI activity and starch phosphorylase activity showed lower variation. Lower sprouting resulted into potatoes with higher levels of total sugar, total reducing sugar and glucose, and lower level of fructose and sucrose. And sprouting could be inhibited by increasing the activities of SS, SPS and AI by treatment with 199.3 μl L−1 exogenous ethylene. Overall, exogenous ethylene inhibited sprouting of potato tubers by influencing its carbohydrate metabolism.

Published
2016

25. Variation in antioxidant properties and metabolites during flower maturation of Flos Lonicerae Japonicae flowers

Author

Qingli Qu, Dai Hongfei, and Maorun Fu

Subjects
Antioxidant, biology, Superoxide, DPPH, medicine.medical_treatment, Flos, General Chemistry, Stage ii, biology.organism_classification, Biochemistry, Industrial and Manufacturing Engineering, chemistry.chemical_compound, Rutin, chemistry, Chlorogenic acid, Caffeic acid, medicine, Food science, Food Science, Biotechnology
Abstract

Antioxidant properties of methanol extracts from Flos Lonicerae Japonicae (FLJ) flowers during maturation were determined with different antioxidant assays, including antioxidant activity in emulsion system, 1,1-diphenyl-2-picrylhydrazyl (DPPH) radical scavenging, superoxide anion radical scavenging and reducing power. Antioxidant metabolites, such as chlorogenic acid, caffeic acid, rutin, 3,5-O-dicaffeoylquinic acid (3,5-O-diCQA) and 3,4-O-diCQA, were also identified and analyzed by DPPH–HPLC–DAD–TOF/MS method. Significant variation in antioxidant properties and related compounds was observed between different maturity stages, and the strongest antioxidant activity was observed at stage I accompanying the highest content of antioxidant compounds. Chlorogenic acid and its derivatives were the main antioxidant compounds in FLJ flowers, accounting for more than 90 % of total bioactive molecules. In summary, bud-developing-stage (stage I and stage II) FLJ flowers possess the highest functional benefit.

Published
2014

29. Hybrid fiber-based time synchronization and vibration detection system.

Author

Dai H, Song D, Li W, Wang G, Pang Z, Li C, and Wang B

Abstract

We propose a hybrid fiber-based time synchronization and vibration detection system. The vibration is detected by exploring the idle light of the time synchronization system, i.e., the Rayleigh backscattering of the timing pulse disseminated in the fiber link. The addition of a sensing function does not affect the performance of time synchronization. In the multiuser experimental demonstration, time deviation results are 3.6 ps at τ = 1 s and 1.4 ps at τ = 10 4 s on the 40-km fiber link. Meanwhile, the hybrid system can accurately detect and locate vibrations occurring on the link. This method enables multiple functions of the optical fiber network without occupying extra optical channels. Moreover, it gives a possible solution for enhancing the security of the time synchronization network through vibration detection.

Published
2024
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