Your search keyword '"Zhichao Ding"' showing total 16 results

1. Influence of linearly polarized light on the transverse relaxation of ground-state 133Cs atoms

Author

Zhichao Ding and Jie Yuan

Subjects

Medicine, Science

Abstract

Abstract In order to obtain an understanding of the relationship between the optical absorption and the transverse relaxation, the influences of linearly polarized light respectively at 133Cs D1 and D2 lines on the transverse relaxation of ground-state 133Cs atoms are studied. Under different vapor temperatures, light intensities and light frequencies, transverse spin relaxation times are separately measured for 133Cs atoms in different hyperfine levels. For theoretically analyzing the measuring results, especially for an unusual trend that the transverse spin relaxation time rises with the increase of light intensity, photon absorption cross-sections of linearly polarized light by 133Cs atoms are simulated. The experimental results show that through influencing the optical absorption and spin-exchange collisions, the linearly polarized light plays a remarkable role in the transverse spin relaxation. The results obtained by this paper can provide a guide to find the optimal intensity and frequency of linearly polarized light in practical applications for decreasing the influences of linearly polarized light on the transverse relaxation.

Published

2024

2. Research on the Frequency Stabilization System of an External Cavity Diode Laser Based on Rubidium Atomic Modulation Transfer Spectroscopy Technology

Author

Yueyang Wu, Fangjun Qin, Zhichao Ding, Rui Xu, and Dongyi Li

Subjects

rubidium, transfer modulation spectroscopy, external cavity diode laser, laser frequency stability, beat frequency, Applied optics. Photonics, TA1501-1820

Abstract

To achieve high-frequency stability on the external cavity diode laser (ECDL), a 780 nm ECDL serves as the seed light source, and its frequency is precisely locked to the saturated absorption peak of rubidium (Rb) atoms using modulation transfer spectroscopy (MTS) technology. For improving the performance of frequency locking, the scheme is designed to find the optimal operating conditions. Correlations between the frequency discrimination signal (FDS) and critical parameters, such as the temperature of the Rb cell, the power ratio of the probe and pump light, and the frequency and amplitude of the modulation and demodulation signals, are observed to attain the optimal conditions for frequency locking. To evaluate the performance of the frequency-stabilized 780 nm ECDL, a dual-beam heterodyne setup was constructed. Through this arrangement, the laser linewidth, approximately 65.4 kHz, is measured. Then, the frequency stability of the laser, quantified as low as 4.886 × 10−12 @32 s, is determined by measuring the beat-frequency signal with a frequency counter and calculating the Allan variance. Furthermore, using the realized frequency locking technology, the 780 nm ECDL can achieve long-term stabilization even after 25 h. The test results show the exceptional performance of the implemented frequency stabilization system for the 780 nm ECDL.

Published

2024

3. Designing an Automatic Frequency Stabilization System for an External Cavity Diode Laser Using a Data Acquisition Card in the LabVIEW Platform

Author

Yueyang Wu, Fangjun Qin, Yang Li, Zhichao Ding, and Rui Xu

Subjects

saturation absorption spectrum, atom interferometer, automatic frequency stabilization, feedback control, LabVIEW, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The frequency stability of free-running lasers is susceptible to the influence of environmental factors, which cannot meet the long-term frequency stabilization requirements for atom interferometry precision measurements. To obtain a frequency-stabilized 780 nm laser beam, an automatic frequency stabilization system for an external cavity diode laser (ECDL) based on rubidium (Rb) atomic saturated absorption spectrum was designed using a commercial data acquisition (DAQ) card. The signals acquired by the A/D terminal are processed and analyzed by LabVIEW, which can automatically identify all the locking points and output the piezoelectric ceramic transducer (PZT) scan and digital feedback through the D/A terminal. The experimental results show that the system can lock to six different frequencies separately and realize automatic relocking within 3.5 s after unlocking. The system has a stability of 1.68 × 10−10@1 s and 4.77 × 10−12@1000 s, which meets the laboratory’s requirements for atomic interference experiments.

Published

2023

4. Optimized method for polarization-based image dehazing

Author

Chunsheng Sun, Zhichao Ding, and Liheng Ma

Subjects

Image dehazing, Combined dehazing method, Polarization-based dehazing, Contrast-enhancement-based dehazing, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Image dehazing is desired under the foggy, rainy weather, or the underwater condition. Since the polarization-based image dehazing utilizes additional polarization information of light to de-scatter, image detail can be recovered well, but how to segment the polarization information of the background radiance and the object radiance becomes the key problem. For solving this problem, a method which combing polarization and contrast enhancement is demonstrated. This method contains two main steps, (a) by seeking the region of large mean intensity, low contrast and large mean degree of polarization, the no-object region can be found, and (b) through defining a weight function and judging whether the dehazed image can achieve high contrast and low information loss, the degree of polarization for object radiance can be estimated. Based on the estimated parameters, the scatter of light by the mediums can be diminished considerably. The theoretical derivation shows that this method can achieve advantages complementation, such as being able to obtain more details like the polarization-based method and high image contrast like the contrast enhancement based method. Besides, it is physically sound and can achieve good dehazing performance under different conditions, which has been verified by different hazing polarization images.

Published

2023

5. Dynamic Compression-Bending Performance of Concrete-Filled Steel Tubular Columns under Lateral Impact

Author

Man Xu, Zhichao Ding, Xianjuan Hao, and Shan Gao

Subjects

lateral impact, eccentricity, CFST column, compression-bending performance, dynamic, Building construction, TH1-9745

Abstract

In this paper, a finite element model of concrete-filled steel tubular (CFST) columns under compression and lateral impact is developed and validated against previous experiments. After analyzing the influence of axial compression on the impact performance of CFST columns, the effects of eccentricity, material strength, and steel ratio on the dynamic compression-bending performances of CFST columns subjected to lateral impact are discussed. The simulated results show that at different axial compression ratios, CFST columns show overall bending failure under lateral impact. The axial force ratio below 0.2 shows a positive effect on the impact resistance of CFST columns, otherwise the axial force would degrade the impact resistance of CFST columns. Eccentricity has a negative effect on the dynamic compression-bending performance of CFST columns. The increase in the concrete strength has little effect on the dynamic compression-bending performance of the CFST columns under lateral impact and eccentric compression. The increases in steel strength and steel ratio can improve the dynamic compression-bending performances of the CFST columns under lateral impact and eccentric compression. Even though the prediction formula for the dynamic compression-bending performance of CFST columns shows good fitness with the simulated results, it is modified to have sufficient strength reserves for design applications.

Published

2023

6. Observation on the absorption of linearly polarized light by 133Cs atoms with optically resolved hyperfine structure

Author

Zhichao Ding and Jie Yuan

Subjects

Linearly polarized light, Hyperfine structure, Optical absorption, Physics, QC1-999

Abstract

The absorption of linearly polarized light by 133Cs atoms is desired to be well known in many applications of atomic physics. For implementing this requirement, a simplified analytical form for the absorption of linearly polarized light by 133Cs atoms with optically resolved hyperfine structure is derived. Based on the obtained analytical form, optical absorption cross-sections of 133Cs atoms are simulated. An experiment is designed to further study the absorption of linearly polarized light by 133Cs atoms. Theory and experiment show that the influence of linearly polarized light on the distribution of 133Cs atoms will in turn affect the optical absorption. In order to demonstrate this kind of influence, an example for the measurement of the 133Cs vapor density is shown theoretically and experimentally, and a method of polynomial fit is proposed to reduce this influence.

Published

2022

7. Calibration Method for Division-of-Focal-Plane Polarimeters Using Nonuniform Light

Author

Zhichao Ding, Chunsheng Sun, Hongwei Han, Liheng Ma, and Yonggang Zhao

Subjects

DoFP polarimeters, polarization information, image calibration, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

A method to calibrate the errors of polarization information measured by division-of-focal-plane polarimeters is demonstrated. The principle of this method is explained, and its feasibility is verified by theoretical simulation and experiment. The simulation and experimental results show that this method can obviously improve the measuring precision of polarization information, and compared with other approaches, the proposed method just uses normal light sources, but can achieve comparable performance.

Published

2021

8. Construction of characterization parameters of algal photosynthetic inhibition method for detection of comprehensive toxicity in water

Author

Mengyuan Gu, Gaofang Yin, Tingting Gan, Nanjing Zhao, Peilong Qi, Min Chen, Zhichao Ding, Renqing Jia, Jinjing Liu, Mingjun Ma, Ruifang Yang, Li Fang, and Wenqing Liu

Subjects

Characterization parameters, Chlorella vulgaris, Chlorophyll fluorescence parameters, Comprehensive toxicity, Photosynthetic inhibition method, Ecology, QH540-549.5

Abstract

Pollutants in water seriously threaten the health of human beings and will lead to potential ecological risks to the aquatic environment. Researchers use many chemical, physiological and morphological methods to detect the comprehensive toxicity in water. Among them, the photosynthetic inhibition method is considered a powerful method to detect the comprehensive toxicity in water, takes the chlorophyll fluorescence in the body as a natural probe, and determines the toxicity effect of pollutants by measuring the variation of photosynthetic fluorescence parameters. It has the advantages of fast and convenient measurement and real-time online detection. The widely used photosynthetic fluorescence parameters are the maximal quantum yield of photosystem II (Fv/Fm) and performance index PIABS. There are the problems that the sensitivity is not high enough, and the substances that can be detected are limited when researchers use Fv/Fm and PIABS as indicators to detect the comprehensive toxicity in water. So, in this paper, we proposed a construction method of Performance Index of Comprehensive Toxicity Effect (PICTE) using multi-parameter fusion based on the chlorophyll a fluorescence rise kinetics curve (OJIP) of algae. The fluorescence information of point J and point I in the curve was integrated. The area surrounded by the curve and the time corresponding to point J and point I were weighted for data items to construct PICTE. On this basis, Chlorella vulgaris was used as the tested algae species to compare the performance differences of Fv/Fm, PICTE, PIABS in the detection of toxic substances under the stress of five common water pollutants: Diuron (DCMU, 3-(3,4-dichlorophenol)-1,1-dimethylurea), Dibromothymoquinone (DBMIB, 2,5-dibromo-3-methyl-6-isopropyl-benzoquinone), Methyl viologen (MV, 1,1ꞌ-dimethyl-4,4ꞌ-bipyridinium-dichloride), Malathion, Carbofuran. The performance differences of Fv/Fm, PICTE, PIABS in detecting toxic substances, including lowest detection limit, highest response concentration, stability, and reproducibility, were studied. The results show that: in terms of toxicity detection, the constructed PICTE was sensitive to all five toxic substances and could detect more kinds of pollutants than Fv/Fm. The lowest detection limit of PICTE for five toxic substances compared with PIABS was reduced by 74.43%, 77.01%, 67.30%, 60.69%, and 50.81%, respectively. At the same time, it has a stronger ability to detect toxic substances with high concentration. The stability and reproducibility of PICTE for detecting the toxicity of DCMU, DBMIB, Malathion, and Carbofuran were all excellent, and all of the relative standard deviation (RSD) was

Published

2022

9. Construction of Hexagonal Prism-like Defective BiOCL Hierarchitecture for Photocatalytic Degradation of Tetracycline Hydrochloride

Author

Lijun Hu, Zhichao Ding, Fei Yan, Kuan Li, Li Feng, and Hongqing Wang

Subjects

BiOCl, photocatalytic, lattice defects, hierarchical structure, degradation, ambient pressure, Chemistry, QD1-999

Abstract

Oxygen vacancy manipulation and hierarchical morphology construction in oxygen-containing semiconductors have been demonstrated to be effective strategies for developing high efficiency photocatalysts. In most studies of bismuth-based photocatalysts, hierarchical morphology and crystal defects are achieved separately, so the catalysts are not able to benefit from both features. Herein, using boiling ethylene glycol as the treatment solution, we developed an etching-recrystallization method for the fabrication of 3D hierarchical defective BiOCl at ambient pressure. The target hierarchical 3D-BiOCl is composed of self-assembled BiOCl nanosheets, which exhibit a hexagonal prism-like morphology on a micron scale, while simultaneously containing numerous oxygen vacancies within the crystal structure. Consequently, the target catalyst was endowed with a higher specific surface area, greater light harvesting capability, as well as more efficient separation and transfer of photo-excited charges than pristine BiOCl. As a result, 3D-BiOCl presented an impressive photocatalytic activity for the degradation of tetracycline hydrochloride in both visible light and natural white light emitting diode (LED) irradiation. Moreover, an extraordinary recycling property was demonstrated for the target photocatalyst thanks to its hierarchical structure. This study outlines a simple and energy-efficient approach for producing high-performance hierarchically defective BiOCl, which may also open up new possibilities for the morphological and crystal structural defect regulation of other Bi-based photocatalysts.

Published

2022

10. Range Intensity Profiles of Multi-Slice Integration for Pulsed Laser Range-Gated Imaging System

Author

Hongsheng Lin, Hongwei Han, Liheng Ma, Zhichao Ding, Dongdong Jin, and Xiaohui Zhang

Subjects

pulsed laser range-gated imaging, range intensity profiles, surveillance, multi-slice integration, Applied optics. Photonics, TA1501-1820

Abstract

Pulsed laser range-gated imaging (PLRGI) is one of the most effective methods to achieve underwater high-resolution imaging. When searching target, there are two methods can be used: fixed gate and sliding gate. In practice, fixed gate has a small depth of field of view and sliding gate cannot meet the need of real time. In order to overcome these problems, multi-slice integration (MSI) method is proposed in this paper. First, the laser energy received by the PLRGI system is derived from radiative transfer theory. In addition, range intensity profiles (RIP) of MSI method is established. Experiments are carried out in lab to validate the RIP model and results show that theoretical data and experimental data are in good coincidence. Then the gate width and the number of pulse assigned to each slice are discussed. Finally, to prove the effectiveness of the MSI method, experiments are carried out in a boat tank. Results show that the MSI method is better than the fixed gate method for surveillance, and can acquire a clear image of the target at 18 m (4.5 times of the attenuation length) in the water with attenuation coefficient of 0.25 m−1.

Published

2022

11. Rapid and Sensitive Detection of Water Toxicity Based on Photosynthetic Inhibition Effect

Author

Min Chen, Gaofang Yin, Nanjing Zhao, Tingting Gan, Chun Feng, Mengyuan Gu, Peilong Qi, and Zhichao Ding

Subjects

photosynthetic inhibition, photosynthetic fluorescence parameter, Chlorella pyrenoidosa, toxic water pollutants, rapid detection, biotesting, Chemical technology, TP1-1185

Abstract

To achieve rapid and sensitive detection of the toxicity of pollutants in the aquatic environment, a photosynthetic inhibition method with microalgae as the test organism and photosynthetic fluorescence parameters as the test endpoint was proposed. In this study, eight environmental pollutants were selected to act on the tested organism, Chlorella pyrenoidosa, including herbicides (diuron, atrazine), fungicides (fuberidazole), organic chemical raw materials (phenanthrene, phenol, p-benzoquinone), disinfectants (trichloroacetonitrile uric acid), and disinfection by-products (trichloroacetonitrile). The results showed that, in addition to specific PSII inhibitors (diuretic and atrazine), other types of pollutants could also quickly affect the photosynthetic system. The photosynthetic fluorescence parameters (Fv/Fm, Yield, α, and rP) could be used to detect the effects of pollutants on the photosynthetic system. Although the decay rate of the photosynthetic fluorescence parameters corresponding to the different pollutants was different, 1 h could be used as an appropriate toxicity exposure time. Moreover, the lowest respondent concentrations of photosynthetic fluorescence parameters to diuron, atrazine, fuberidazole, phenanthrene, P-benzoquinone, phenol, trichloroacetonitrile uric acid, and trichloroacetonitrile were 2 μg·L−1, 5 μg·L−1, 0.05 mg·L−1, 2 μg·L−1, 1.0 mg·L−1, 0.4 g·L−1, 0.1 mg·L−1, and 2.0 mg·L−1, respectively. Finally, diuron, atrazine, fuberidazole, and phenanthrene were selected for a comparison of their photosynthetic inhibition and growth inhibition. The results suggested that photosynthetic inhibition could overcome the time dependence of growth inhibition and shorten the toxic exposure time from more than 24 h to less than 1 h, or even a few minutes, while, the sensitivity of the toxicity test was not weakened. This study indicates that the photosynthetic inhibition method could be used for rapid detection of the toxicity of water pollutants and that algae fluorescence provides convenient access to toxicity data.

Published

2021

12. Three-Axis Atomic Magnetometer Employing Longitudinal Field Modulation

Author

Zhichao Ding, Jie Yuan, Guangfeng Lu, Yingying Li, and Xingwu Long

Subjects

Atomic magnetometer, magnetic resonance, modulation., Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

A three-axis atomic magnetometer employing longitudinal field modulation is demonstrated theoretically and experimentally. The operational condition of this magnetometer is that the longitudinal z-component of the external magnetic field is dominant, which is achieved by applying a bias magnetic field. The longitudinal z-component of the external magnetic field is extracted from the modulation frequency, which tracks the resonance frequency, and the transverse x- and y- components are, respectively, obtained from the quadrature and the in-phase signals of a lock-in amplifier. Through feedback control, the magnitude and direction of an external magnetic field can be measured in real time, and an excellent orthogonality of the three-axis magnetometer response is obtained. By optimizing the parameters of this three-axis magnetometer, a longitudinal field sensitivity of 0.3 ${\rm{pT}/ \rm{Hz}}^{1/ 2}$ and a transverse field sensitivity of 2 ${\rm{pT}/ \rm{Hz}}^{1/ 2}$ are achieved.

Published

2017

13. Maintenance of Nucleolar Homeostasis by CBX4 Alleviates Senescence and Osteoarthritis

Author

Xiaoqing Ren, Boqiang Hu, Moshi Song, Zhichao Ding, Yujiao Dang, Zunpeng Liu, Weiqi Zhang, Qianzhao Ji, Ruotong Ren, Jianjian Ding, Piu Chan, Changtao Jiang, Keqiong Ye, Jing Qu, Fuchou Tang, and Guang-Hui Liu

Subjects

Biology (General), QH301-705.5

Abstract

Summary: CBX4, a component of polycomb repressive complex 1 (PRC1), plays important roles in the maintenance of cell identity and organ development through gene silencing. However, whether CBX4 regulates human stem cell homeostasis remains unclear. Here, we demonstrate that CBX4 counteracts human mesenchymal stem cell (hMSC) aging via the maintenance of nucleolar homeostasis. CBX4 protein is downregulated in aged hMSCs, whereas CBX4 knockout in hMSCs results in destabilized nucleolar heterochromatin, enhanced ribosome biogenesis, increased protein translation, and accelerated cellular senescence. CBX4 maintains nucleolar homeostasis by recruiting nucleolar protein fibrillarin (FBL) and heterochromatin protein KRAB-associated protein 1 (KAP1) at nucleolar rDNA, limiting the excessive expression of rRNAs. Overexpression of CBX4 alleviates physiological hMSC aging and attenuates the development of osteoarthritis in mice. Altogether, our findings reveal a critical role of CBX4 in counteracting cellular senescence by maintaining nucleolar homeostasis, providing a potential therapeutic target for aging-associated disorders. : Ren et al. identify a geroprotective role for CBX4 in human mesenchymal stem cells (hMSCs) by maintaining nucleolar homeostasis. Overexpression of CBX4 alleviates hMSC aging and attenuates the development of osteoarthritis, highlighting a potential avenue for the use of CBX4 gene therapy vector in treating aging and aging-related disorders. Keywords: CBX4, stem cell, aging, nucleolus, rDNA, epigenetics, heterochromatin, osteoarthritis, CRISPR/Cas9, gene editing

Published

2019

14. Practical method for determining the emission frequency of a distributed feedback diode laser at the D1 line of 133Cs

Author

Zhichao Ding, Jie Yuan, and Xingwu Long

Subjects

Physics, QC1-999

Abstract

A practical method to determine the emission frequency of a distributed feedback diode laser at the D1 line of 133Cs is reported. By fitting the extracted dips of the saturated absorption spectrum using linear or quadratic function, this method can realize the measurement of the emission frequency with low cost and simple structure. The test results show that this method can achieve an appreciable measurement range and a high measuring precision of approximately 10 MHz.

Published

2019

15. Research and Analysis on Present Situation of Desert Sand Concrete

Author

Yanjun Ji, Chuang Liu, and Zhichao Ding

Subjects

Environmental sciences, GE1-350

Abstract

Due to the rapid development of civil engineering industry, natural medium and coarse sand resources are increasingly scarce. If desert sand is studied and applied in the field of civil engineering, the shortage of sand resources and high unit price can be greatly solved.Therefore, it is very important to study desert sand instead of ordinary sand. Although the application of desert sand in engineering has made rapid development, many engineers and researchers have done a lot of experiments and in-depth research on the physical and chemical properties, mechanical properties and compaction characteristics of desert sand, and also made a lot of experimental research results. However, at present, because of the different engineering properties, different deserts are used and the test methods are different. Generally speaking, the understanding of this special material with engineering properties is not mature at home and abroad, and it is not widely used in civil engineering.

Published

2021

16. Response of a Bell–Bloom Magnetometer to a Magnetic Field of Arbitrary Direction

Author

Zhichao Ding, Jie Yuan, and Xingwu Long

Subjects

Bell–Bloom magnetometer, frequency response, linewidth, Chemical technology, TP1-1185

Abstract

The Bell–Bloom magnetometer in response to a magnetic field of arbitrary direction is observed theoretically and experimentally. A theoretical model is built from a macroscopic view to simulate the magnetometer frequency response to an external magnetic field of arbitrary direction. Based on the simulation results, the magnetometer characteristics, including the signal phase and amplitude at resonance, the linewidth, and the magnetometer sensitivity, are analyzed, and the dependencies of these characteristics on the external magnetic field direction are obtained, which are verified by the experiment.

Published

2018