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1. A Robust Estimate Method for Damage Detection of Concrete Structures Using Contaminated Data

Author

X. Peng, F. J. Qin, Q. W. Yang, and H. Chen

Subjects
Engineering (General). Civil engineering (General), TA1-2040
Abstract

Damage detection of concrete structures based on finite element model and measured response parameters has been an important research topic in recent years. It is well known that test data of mechanical behavior of concrete show great scatterness. As a result, the measured response parameters of concrete structures sometimes have gross errors. The gross error is a physical quantity that is much larger than data noise, which may lead to serious distortion of calculation results. To this end, a new robust estimate method termed as the augmented inverse estimate is proposed in this work for damage detection of concrete structures to resist gross errors in data. It has the advantages of very simple programming, convenient utilization, high computational accuracy, and broad prospect of application. Central to the augmented inverse estimate are the augmentation of coefficient matrix and the multiple computations based on feedback evaluation. A reinforced concrete beam structure is used as an example to verify the proposed method. It was found that the proposed method can successfully identify the location and extent of structural damage even if the used data have gross errors.

Published
2021
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2. Size Effect on Recycled Concrete Strength and Its Prediction Model Using Standard Neutrosophic Number

Author

X. Peng, Q. W. Yang, and F. J. Qin

Subjects
Engineering (General). Civil engineering (General), TA1-2040
Abstract

In recent years, research on recycled aggregate concrete has become a hot issue in the field of civil engineering. This paper mainly studies the size effects on compressive and tensile strengths of the recycled aggregate concrete. Firstly, four sets of recycled concrete cube specimens with different sizes are produced in the laboratory. Secondly, the experiments on compressive and tensile strengths are carried out to obtain the rules of the strength value with the change of the specimen size. Thirdly, a standard neutrosophic number is proposed and used in modelling the size effect law more reasonably. According to the experimental results, it was found that the compressive and tensile strengths of recycled concrete both have obvious size effects. In general, the strength value decreases gradually with the increase of specimen size. Using the standard neutrosophic number, the proposed new formula on size effect law is more suitable for tackling the indeterminacy in the experimental data. It has been shown that the size effect law based on the standard neutrosophic number is more realistic than the existing size effect law. The results may be useful for the engineering application of the recycled concrete and can be extended to other types of size effect laws in the future.

Published
2021
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3. Measurements of the fast electron bremsstrahlung during lower hybrid current drive in the HL-2A tokamak

Author

Y. P. Zhang, D. Mazon, Y. Peysson, P. Malard, P. F. Zhang, J. Zhang, X. L. Zou, J. Zhou, H. B. Xu, X. Y. Bai, J. W. Yang, G. L. Yuan, X. Y. Song, X. Li, W. L. Zhong, X. T. Ding, W. Chen, Y. G. Li, T. Hoang, L. Delpech, A. Ekedahl, M. Isobe, X. M. Song, B. Lu, Yi Liu, Z. B. Shi, Q. W. Yang, M. Xu, X. R. Duan, and Y. Liu

Subjects
Physics, QC1-999
Abstract

Physics related to fast electrons in lower hybrid (LH) current drive (LHCD) plasma is a very important issue, since these particles will play an important role in runaway electron (RE) generation and lower hybrid wave (LHW)-related physics. Utilizing a new hard X-ray (HXR) pinhole camera, recent HL-2A tokamak experiments have devoted to enhancing the understanding of the physics on fast electrons and LHW. The fast electron bremsstrahlung (FEB) emission in the HXR energy range between 20 and 200 keV was measured by the HXR camera. To study the conversion of LHW-produced fast electrons into REs, a very short pulse of LHW, so-called “blip”, with duration of 5 ms was injected into the plasma during the current flattop phase. A strong enhancement of REs was induced by the blip injection. Measurements from the HXR camera show that the fast electrons generated by LHWs is mainly concentrated in 40-60 keV, which is well consistent with the calculated value based on Landau damping theory. The energy of these seed electrons is higher than the critical runaway energy. This phenomenon may be come from the synergetic effects of Dreicer and avalanche RE generation. Moreover, the measurements indicate that the spatial distribution of the fast electrons during LHCD has a peaked profile, implying that the fast electrons are mainly produced in the plasma core. It also suggests that the energy of the LHW mainly deposited in the plasma core region.

Published
2019
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4. Design and construction of high-frequency magnetic probe system on the HL-2A tokamak

Author

S. Y. Liang, X. Q. Ji, T. F. Sun, Yuan Xu, J. Lu, B. S. Yuan, L. L. Ren, and Q. W. Yang

Subjects
Physics, QC1-999
Abstract

A high-frequency magnetic probe system is designed, calibrated and constructed on the HL-2A tokamak. To investigate the factors which affect the probe frequency response, the inductance and capacitance in the probe system are analyzed using an equivalent circuit. Suitable sizes and turn number of the coil, and the length of transmission cable are optimized based on the theory and detailed test in the calibration. To deal with the frequency response limitation and bake-out, the ceramic grooved technique is used and the probe is wound with a bare copper wire. A cascade filter is manufactured with a suitable bandwidth as well as a good phase consistency between channels. The system has been used in the experiment to measure high frequency (≤300 kHz) magnetohydrodynamic fluctuations, which can meet the requirement of physical analysis on HL-2A.

Published
2017
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5. A Universal Fast Algorithm for Sensitivity-Based Structural Damage Detection

Author

Q. W. Yang, J. K. Liu, C.H. Li, and C.F. Liang

Subjects
Technology, Medicine, Science
Abstract

Structural damage detection using measured response data has emerged as a new research area in civil, mechanical, and aerospace engineering communities in recent years. In this paper, a universal fast algorithm is presented for sensitivity-based structural damage detection, which can quickly improve the calculation accuracy of the existing sensitivity-based technique without any high-order sensitivity analysis or multi-iterations. The key formula of the universal fast algorithm is derived from the stiffness and flexibility matrix spectral decomposition theory. With the introduction of the key formula, the proposed method is able to quickly achieve more accurate results than that obtained by the original sensitivity-based methods, regardless of whether the damage is small or large. Three examples are used to demonstrate the feasibility and superiority of the proposed method. It has been shown that the universal fast algorithm is simple to implement and quickly gains higher accuracy over the existing sensitivity-based damage detection methods.

Published
2013
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6. Visible imaging system with changeable field of view on the HL-2A tokamak

Author

L. Liu, D. L. Yu, Z. B. Shi, W. Y. Zhai, N. Wu, J. M. Gao, Z. H. Huang, F. Xia, X. X. He, Y. L. Wei, N. Zhang, W. J. Chen, and Q. W. Yang

Subjects
Instrumentation
Abstract

A new visible imaging system characterizing a flexible optical design and delivering high resolution frames is established on the HL-2A tokamak. It features a modular configuration, consisting of a front-end imaging lens, a set of bilateral telecentric relay lenses, and a camera. To avoid the effects of plasma radiation (x and gamma-rays) and magnetic field variation on the camera, it should be away from the coils. Therefore, the length of the relay lenses determines the total size of the imaging system. The main feature of this imaging system is to realize the variation of field of view (FOV) by interchanging the front-end prime lenses or by using a zoom lens directly rather than designing the optical system afresh, which lowers the cost drastically. The primary purpose of varying FOV is to enrich the versatility of this system, i.e., focusing on a narrow FOV such as gas puff imaging or a wide FOV such as the plasma cross sections. During the HL-2A experiments, this visible imaging system is used to provide high quality pictures of the plasma–wall interaction, divertor detachment, pellet injections, and so on. The frames confirmed that a strong radiation close to the X point is correlated with the completely detached inner target.

Published
2022

7. [Research advances on the pathogenesis and diagnosis of pyoderma gangrenosum]

Author

L, Yang, Q W, Yang, and Y J, Fu

Subjects
Humans, Pyoderma Gangrenosum
Abstract

Pyoderma gangrenosum (PG) is a rare neutrophilic dermatosis, closely associated with the immune system. Its pathogenesis is currently not clear. The lack of specificity in the clinical manifestations and histopathological changes of PG leads to a long clinical diagnosis cycle and even misdiagnosis, which is easy to delay treatment or promote the deterioration of ulcer wound. The diagnosis of this disease is still very difficult, which poses a great challenge to wound repair practitioners. This article reviews the research advances on the pathophysiology, clinical features, and diagnosis of PG in recent years, with the aim of providing reference for relevant clinical practitioners.坏疽性脓皮病(PG)是一种罕见的嗜中性皮肤病,与免疫系统密切相关,其发病机制目前并不明确。PG的临床表现及组织病理学变化缺乏特异性,导致其临床诊断周期较长甚至可能被误诊,容易因此延误治疗或促使溃疡创面恶化。目前该病的诊断仍十分困难,给创面修复医师带来了极大的挑战。该文综述了近年来有关PG的病理生理、临床特征、诊断等方面的研究进展,以期为相关临床工作者提供参考。.

Published
2022

9. Progress of Experimental Studies in the HL-2A Tokamak

Author

Y. Q. Liu, Z. B. Shi, M. Jiang, D. Q. Liu, A. S. Liang, T. F. Sun, B. D. Yuan, Y. P. Zhang, B. Lu, G. Z. Hao, J. Q. Dong, X. T. Ding, Liming Yu, J. H. Zhang, X. R. Duan, L. J. Cai, P. W. Shi, W. M. Xuan, G. Y. Zheng, M. Huang, X. M. Song, T. Long, Z. Cao, J. B. Yuan, W. L. Zhong, Yi Liu, H. L. Wei, H. J. Li, Y. Q. Wang, J. Y. Cao, W. Chen, M. Xu, Q. W. Yang, L. W. Yan, R. Hong, X. Y. Bai, Y. Shen, X. Q. Ji, G. L. Xiao, D. L. Yu, Z. Y. Cui, and J. Q. Li

Subjects
Physics, Nuclear and High Energy Physics, Tokamak, Wave turbulence, Plasma, 01 natural sciences, 010305 fluids & plasmas, Computational physics, law.invention, Nuclear Energy and Engineering, Physics::Plasma Physics, Normal mode, law, Physics::Space Physics, 0103 physical sciences, Mode coupling, Magnetohydrodynamics, 010306 general physics, Edge-localized mode, Shear flow
Abstract

During the last several years, the HL-2A experiment has made significant progress in the following areas: (1) lower-hybrid wave (LHW) heating and current drive, (2) plasma confinement and turbulent transport, (3) magnetohydrodynamic (MHD) instabilities and energetic particle physics and (4) H-mode and edge localized mode (ELM) control. The results show that the LHW system working in the co-current mode can reach higher driving efficiency and full non-inductive lower-hybrid current drive (LHCD) has been achieved. The intrinsic poloidal torque characterized by the divergence of the residual stress is deduced from synthesis for the first time. The dynamics of spectral symmetry breaking in drift wave turbulence is in good agreement with the development of the poloidal torque to drive the edge poloidal flow. The influence of the cross-phase dynamics on turbulent stress was also investigated. The ion internal transport barrier has been observed in the NBI-heated plasma, and inside the barrier the ion thermal transport is reduced to the neoclassical level. Besides, micro-turbulence is modulated by the rotation frequency of the magnetic island, and this modulation effect is related to a critical island width. Strong E × B shear is found at the island boundary. Three kinds of axisymmetric modes, beta-induced Alfven eigenmode (BAE), toroidal Alfven eigenmode (TAE) and the ellipticity-induced Alfven eigenmode (EAE), are found to be driven unstable by nonlinear mode coupling between Alfven eigenmodes and tearing mode which is well explained by the nonlinear gyrokinetic theory. The fishbone and tearing modes were actively controlled by the electron cyclotron resonance heating (ECRH). The dynamics of the edge plasma flows and turbulence during the L–I–H transition have been dedicatedly investigated. The geodesic acoustic mode (GAM) and limit cycle oscillation (LCO) coexist for a short time and disappear in the H-mode plasma with the increasing of E × B shear flow before the I–H transition, which plays an important role in the turbulence suppression. Different techniques, such as LHW, ECRH, resonant magnetic perturbation (RMP), and impurity seeding by the laser blow-off (LBO) and supersonic molecular beam injection (SMBI), have been successfully applied to control the large ELMs. It has been found that pedestal turbulence enhancement might be responsible for the observed mitigation effect.

Published
2020
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10. Z eff Measurement in Ohmic, L- and H-Mode Plasmas on HL-2A Tokamak

Author

L. Liu, N. Zhang, D. L. Yu, K. Zhang, D. Li, Z. C. Yang, W. J. Chen, Z. B. Shi, X. F. He, L. W. Yan, Yi Liu, Y. L. Wei, X. X. He, and Q. W. Yang

Subjects
Physics, Nuclear and High Energy Physics, Divertor, Bremsstrahlung, Plasma, Electron, Condensed Matter Physics, 01 natural sciences, 010305 fluids & plasmas, Impurity, Ionization, 0103 physical sciences, Spectral resolution, Atomic physics, Bar (unit)
Abstract

$Z_{\mathrm {eff}}$ is measured by two visible bremsstrahlung diagnostics on HL-2A tokamak, one of which uses a high spectral resolution spectrometer coupled with an electron multiplied CCD (temporal resolution of 100 Hz), and the other uses a filterscope system (temporal resolution of 1 MHz). The bremsstrahlung brightness measured by them coincides with each other very well. $\bar {Z}_{\mathbf {eff}}$ is systematically measured under different discharge conditions, such as divertor and limiter configurations, ohmic and auxiliary heating phases, before and after siliconization, and $L$ – $H$ transition. Under ohmic phase, $\bar {Z}_{\mathbf {eff}}$ is higher in the limiter configuration than that in the divertor configuration by a factor of ~1.5 under high-density regime. $\bar {Z}_{\mathbf {eff}}$ increases in all cases of auxiliary heating scenarios due to enhanced plasma–wall interaction, accompanied by influx increases of low ionization states of impurities such as C2+ and Fe1+ in plasma edge. Siliconization for wall conditioning is prominently effective in lowering the main impurity influxes in plasma edge and thus the impurity level, and a concentration of ~4% for carbon and ~0.2% for iron is roughly evaluated for a typical nonsiliconized plasma. A simple relationship that $Z_{\mathrm {eff}}$ is positively correlated with $\Phi _{\mathrm {in}}$ and $\tau _{\mathrm {p}}$ is verified from the L - and $H$ -mode features, where $\Phi _{\mathrm {in}}$ is the impurity influx and $\tau _{\mathrm {p}}$ the particle confinement time. A nearly constant $\bar {Z}_{\mathbf {eff}}$ evolution is observed during $L$ – $H$ and $H$ – $L$ transition and it seems that $\bar {Z}_{\mathbf {eff}}$ is insensitive to $L$ – $H$ and $H$ – $L$ transition under some $Z_{\mathrm {eff}}$ (0) threshold. The $Z_{\mathrm {eff}}$ profiles are flat/weakly hollow in plasma core region (rho $Z_{\mathrm {eff}}$ (0) and tend to be peaked when $Z_{\mathrm {eff}}$ (0) is larger than 3, which agrees with the neoclassical theory prediction.

Published
2020
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11. Effect of the E × B drift on the redistribution of the divertor particle flux in the HL-2A ECRH plasmas

Author

N. Wu, J. Cheng, H. L. Du, Z. H. Huang, L. W. Yan, W. C. Wang, K. Y. Yi, X. Q. Miao, J. M. Gao, J. Q. Xu, Z. B. Shi, Y. Liu, Q. W. Yang, J. Q. Dong, W. L. Zhong, and M. Xu

Subjects
Condensed Matter Physics
Abstract

Double-peaked distribution (DPD) of particle flux has only been observed on the outer divertor target in electron cyclotron resonance heating deuterium plasmas with [Formula: see text] toward the X-point in the HL-2A tokamak using high spatiotemporal Langmuir probe arrays. The experimental results demonstrate that the formation of the DPD is mainly due to the enhanced poloidal [Formula: see text] drift flow stimulated in the divertor region, which is dependent on the plasma density, heating power, and divertor structure. The experimental results are qualitatively consistent with the SOLPS simulation. The experiment also shows that the formation of the DPD might be related to the enhanced cross field transport in the far scrape-off layer. This experimental findings presented here reveal the crucial role played by the synergistic effect of poloidal E × B drift flow and the closed divertor structure in the redistribution of the particle flux, which provides a potential way for the control of high heat flux in future fusion devices.

Published
2023
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12. Fast and Exact Algorithm for Structural Static Reanalysis Based on Flexibility Disassembly Perturbation

Author

Q. W. Yang

Subjects
020301 aerospace & aeronautics, Computer science, Aerospace Engineering, Perturbation (astronomy), Truss, 02 engineering and technology, 01 natural sciences, 010305 fluids & plasmas, symbols.namesake, Exact algorithm, 0203 mechanical engineering, 0103 physical sciences, Taylor series, symbols, Applied mathematics, Elastic modulus
Abstract

Fast static reanalysis techniques are very important tools often used in structural optimization design. Generally, the existing exact methods for static reanalysis are only suitable for low-rank m...

Published
2019
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13. Current Profile Reconstruction Using Motional Stark Effect Polarimeter Data on HL-2A Tokamak

Author

Z. B. Shi, H. Wu, N. Zhang, B. S. Yuan, Q. W. Yang, L. W. Yan, D. L. Yu, L. Liu, Y. Q. Liu, Y. L. Wei, X. F. He, W. J. Chen, and X. X. He

Subjects
Physics, Nuclear and High Energy Physics, Tokamak, Safety factor, 020209 energy, Mechanical Engineering, Polarimeter, 02 engineering and technology, 01 natural sciences, 010305 fluids & plasmas, Plasma current, law.invention, Computational physics, symbols.namesake, Nuclear Energy and Engineering, Stark effect, law, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, symbols, General Materials Science, Current (fluid), Current density, Civil and Structural Engineering
Abstract

In order to reconstruct the plasma current density, the Current Profile Fitting (CPF) code has been successfully developed on the HL-2A tokamak. A seven-channel motional Stark effect (MSE) ...

Published
2019
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14. Study on the printing quality of fused deposition modeling using Taguchi method

Author

H M Teng, S K Fan, C H Jiang, Q W Yang, F H Liu, and C C Tsao

Subjects
History, Computer Science Applications, Education
Abstract

Fused deposition modeling (FDM) in 3D printing is a very promising technology and one of the focuses of scientific research. The main reason is that it has the advantages of simple structure, relatively low price and convenient operation, which has made its development more and more rapid in recent years. However, due to the fact that the FDM products are susceptible to the operating environment, the printing quality is not stable enough and the development is restricted. In addition, this research uses Taguchi method to explore FDM to optimize a long and thin desired volume of the workpiece under different printing parameters (printing temperature, printing speed ratio, and printing layer thickness). From the experimental results, the size of the factors that affect the FDM’s expected volume of the workpiece is, in order, the printing temperature is the most important, the printing speed ratio is the second, and the printing layer thickness is the smallest. The optimal parameter combination for the desired workpiece volume is A1B1C1, that is, the printing temperature is 190°C, the printing speed ratio is 0.286 (20 mm/s on the outer side, 70 mm/s on the inner side), and the printing layer thickness is 0.1 mm. Finally confirmed the experimental results and found that the volume error of the finished product using the best printing parameters is less than 0.3 %, which proves that the optimized printing parameters obtained by Taguchi method are indeed effective and feasible.

Published
2022
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15. Visible wide-angle view imaging system for the first plasma on the HL-2M tokamak

Author

Z C Yang, L W Yan, J Lu, N Zhang, L G Zang, L Liu, F Xia, D L Zheng, Y L Wei, Z B Shi, X F He, D L Yu, X X He, Yi Liu, and Q W Yang

Subjects
Physics, Tokamak, business.industry, Divertor, Field of view, Plasma, 01 natural sciences, Atomic and Molecular Physics, and Optics, law.invention, 010309 optics, Lens (optics), Optics, law, Temporal resolution, 0103 physical sciences, Light emission, Electrical and Electronic Engineering, business, Engineering (miscellaneous), Image resolution
Abstract

The wide-angle view imaging system, in terms of a tangential view diagnostic with field of view (FOV) of 56.8° and a downward-looking diagnostic from the top of the machine with FOV of 94.7°, has been newly constructed for the first plasma of the HL-2M tokamak achieved in December 2020. Its mission in this stage is to monitor the plasma evolution during its startup, sustainment, and disruption in the visible spectral range as well as the plasma–wall interaction. For the latter ultrawide view diagnostic, nearly three-quarters of the divertor region and half the area of the inner wall are in the view range. Both the diagnostics are characterized by a similar optical structure, i.e., the light emission from the plasma is collected by a front-end lens and transferred through an imaging fiber bundle to the camera. This optical structure is suitable for application in the complex tokamak environment mainly because the fiber bundle is flexible. Photos of glow discharges are acquired prior to the first plasma for testing the FOVs in the vacuum vessel. The spatial resolution is ∼ 4 m m for the tangential view diagnostic and ∼ 10 m m for the downward-looking diagnostic. The temporal resolutions, ranging from 90 to 360 Hz by changing the region of interest or binning acquisition mode of the color camera, are applied to record the plasma evolutions and/or dust creation events during the first plasma campaign.

Published
2021

17. Size Effect on Recycled Concrete Strength and Its Prediction Model Using Standard Neutrosophic Number

Author

F. J. Qin, Q. W. Yang, and X. Peng

Subjects
Aggregate (composite), Article Subject, business.industry, 0211 other engineering and technologies, 02 engineering and technology, Structural engineering, 021001 nanoscience & nanotechnology, Engineering (General). Civil engineering (General), 021105 building & construction, Ultimate tensile strength, Cube, TA1-2040, 0210 nano-technology, business, Civil and Structural Engineering, Mathematics
Abstract

In recent years, research on recycled aggregate concrete has become a hot issue in the field of civil engineering. This paper mainly studies the size effects on compressive and tensile strengths of the recycled aggregate concrete. Firstly, four sets of recycled concrete cube specimens with different sizes are produced in the laboratory. Secondly, the experiments on compressive and tensile strengths are carried out to obtain the rules of the strength value with the change of the specimen size. Thirdly, a standard neutrosophic number is proposed and used in modelling the size effect law more reasonably. According to the experimental results, it was found that the compressive and tensile strengths of recycled concrete both have obvious size effects. In general, the strength value decreases gradually with the increase of specimen size. Using the standard neutrosophic number, the proposed new formula on size effect law is more suitable for tackling the indeterminacy in the experimental data. It has been shown that the size effect law based on the standard neutrosophic number is more realistic than the existing size effect law. The results may be useful for the engineering application of the recycled concrete and can be extended to other types of size effect laws in the future.

Published
2021
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18. A Robust Estimate Method for Damage Detection of Concrete Structures Using Contaminated Data

Author

H. Chen, Q. W. Yang, X. Peng, and F. J. Qin

Subjects
Article Subject, Computer science, Computation, Inverse, 020101 civil engineering, 02 engineering and technology, Engineering (General). Civil engineering (General), Finite element method, 0201 civil engineering, 020303 mechanical engineering & transports, 0203 mechanical engineering, Simple (abstract algebra), Distortion, TA1-2040, Coefficient matrix, Algorithm, Civil and Structural Engineering, Test data, Physical quantity
Abstract

Damage detection of concrete structures based on finite element model and measured response parameters has been an important research topic in recent years. It is well known that test data of mechanical behavior of concrete show great scatterness. As a result, the measured response parameters of concrete structures sometimes have gross errors. The gross error is a physical quantity that is much larger than data noise, which may lead to serious distortion of calculation results. To this end, a new robust estimate method termed as the augmented inverse estimate is proposed in this work for damage detection of concrete structures to resist gross errors in data. It has the advantages of very simple programming, convenient utilization, high computational accuracy, and broad prospect of application. Central to the augmented inverse estimate are the augmentation of coefficient matrix and the multiple computations based on feedback evaluation. A reinforced concrete beam structure is used as an example to verify the proposed method. It was found that the proposed method can successfully identify the location and extent of structural damage even if the used data have gross errors.

Published
2021
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19. Fast charge exchange recombination spectroscopy on HuanLiu-2A tokamak

Author

M. Xu, Q. W. Yang, D. L. Yu, X. F. He, L. W. Yan, X. X. He, W. J. Chen, Yi Liu, L. Liu, Y. L. Wei, X. R. Duan, Zhongbing Shi, and Q. Ma

Subjects
010302 applied physics, Tokamak, Materials science, Pixel, business.industry, chemistry.chemical_element, Sawtooth wave, 01 natural sciences, Spectral line, 010305 fluids & plasmas, law.invention, Optics, chemistry, law, 0103 physical sciences, Charge-coupled device, business, Spectroscopy, Instrumentation, Radiant intensity, Helium
Abstract

A Fast Charge eXchange Recombination Spectroscopy (CXRS) diagnostic with eight radial channels has been implemented on a HuanLiu-2A (HL-2A) tokamak with a time resolution of up to 10 kHz monitoring helium II spectra or 1 kHz monitoring carbon VI spectra. The crucial aspects of the fast CXRS are to improve the spectral intensity and the acquisition frequency. The spectral intensity has been greatly enhanced by customized fiber bundles. The main boost in optimizing the acquisition frequency is achieved by binning more pixel rows of the charge coupled device (CCD) representing one radial channel and by reducing the effective image area of the CCD. Consequently, the sawtooth oscillations of ion temperature and rotation velocity are continuously observed for the first time in the HL-2A tokamak.

Published
2020

20. A Virtual Load Method for Damage Identification of Beam Structures

Author

Q. W. Yang, B. X. Sun, C. F. Liang, and C. H. Li

Subjects
Identification (information), Computer science, Acoustics, 0202 electrical engineering, electronic engineering, information engineering, General Engineering, 020201 artificial intelligence & image processing, 02 engineering and technology, 021001 nanoscience & nanotechnology, 0210 nano-technology, Beam (structure)
Published
2018
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23. Validation of reference genes for the normalization of RT-qPCR expression studies on human laryngeal cancer and hypopharyngeal cancer

Author

W-Z, Yin, Q-W, Yang, K, Niu, M, Ren, D, He, and W-Z, Song

Subjects
Male, China, Hypopharyngeal Neoplasms, Gene Expression Profiling, Middle Aged, Real-Time Polymerase Chain Reaction, Gene Expression Regulation, Neoplastic, Evaluation Studies as Topic, Humans, Female, RNA, Messenger, Laryngeal Neoplasms, Algorithms, Aged, Neoplasm Staging
Abstract

Selecting stably expressed reference genes is crucial for evaluating real-time quantitative polymerase chain reaction (RT-qPCR) data via the relative quantification method. In the present-day study, our aim was to select optimal reference genes (RGs) for the investigation of target gene (TG) expression profiling in cancerous human laryngeal and hypopharyngeal tissues.12 cancerous laryngeal tissues and 10 cancerous hypopharyngeal tissues were investigated. The expression characteristics of 11 reference genes (18S rRNA, GAPDH, B2M, ACTB, TBP, ALAS1, RPL29, HMBS, HPRT1, GUSB, and PUM1), which were commonly used in RT-qPCR for the analysis of gene expression, were investigated using the geNorm, NormFinder, and BestKeeper algorithm programs.HMBS, ALAS1, and B2M were suggested as optimal RGs for studying human laryngeal and hypopharyngeal cancerous tissues together, laryngeal cancerous tissue by itself, and hypopharyngeal cancerous tissue by itself, respectively. If 2 or more reference genes are needed to achieve better standardization, 3 reference genes can optimally be used in combination to improve the accuracy of relative quantitation normalization. The recommended combinations for studying human laryngeal and hypopharyngeal cancerous tissues together, laryngeal cancerous tissue by itself, and hypopharyngeal cancerous tissue by itself were HMBS + HPRT1 + GUSB, ALAS1 + GUSB + HMBS, and B2M + HPRT1 + TBP, respectively.The recommended reference genes could be used to improve the accuracy of gene expression studies on the molecular mechanisms of cancerous human laryngeal and hypopharyngeal tissues. The selected combination of reference genes can effectively improve the accuracy of the relative quantitative diagnosis of gene expression levels, such as messenger RNA, circular RNA, and long-noncoding RNA.

Published
2019

24. Development of ECE/ECEI diagnostics and MHD-related studies on HL-2A tokamak

Author

Z. C. Yang, J. Wen, A. S. Liang, Q. W. Yang, Z. B. Shi, Neville C. Luhmann, Y. Liu, W. Chen, W. L. Zhong, X. T. Ding, P. W. Shi, M. Jiang, and Yuhong Xu

Subjects
Physics, Heterodyne, Tokamak, business.industry, Local oscillator, QC1-999, Cyclotron, 01 natural sciences, 010305 fluids & plasmas, law.invention, Optics, Intermediate frequency, law, Temporal resolution, 0103 physical sciences, Electron temperature, Radio frequency, 010306 general physics, business
Abstract

A novel 60-channel electron cyclotron emission (ECE) radiometer has been designed and tested for the measurement of electron temperature profiles on the HL-2A tokamak. This system is based on the intermediate frequency division technique, and has the features of wide working frequency range (60−90 GHz) and high temporal-spatial resolution (3 µs, 1 cm), which covers almost the entire plasma region. Also, an electron cyclotron emission imaging (ECEI) system has been developed for studying two dimensional electron temperature fluctuations. It is comprised of several front-end quasi-optical lenses, a 24 channel heterodyne imaging array with a tunable RF frequency range spanning 60−135 GHz, and a set of back-end ECEI electronics that together generate two 24×8 array images of the 2nd harmonic X-mode electron cyclotron emission from the HL-2A plasma. The measurement region can be flexibly shifted due to two independent local oscillator sources, and the field of view can be adjusted easily by changing the position of the zoom lenses as well. The temporal resolution is about 2.5 µs and the achievable spatial resolution is 1 cm. The ECE/ECEI diagnostics have been demonstrated to be powerful tools to study MHD-related physics including the multi-scale interaction between macro-scale MHD and micro-scale turbulence on the HL-2A tokamak.

Published
2019

25. A remote gain controlled and polarization angle tunable Doppler backward scattering reflectometer

Author

M Xu, J Wen, Z C Yang, J. C. Hillesheim, P Shi, Q W Yang, M Jiang, Simon Freethy, W C Deng, P W Shi, A S Liang, Zhoujun Yang, K R Fang, Z B Shi, Bin Wang, W L Zhong, X T Ding, R H Tong, and Y Liu

Subjects
010302 applied physics, Computer science, Amplifier, 01 natural sciences, Signal, 010305 fluids & plasmas, law.invention, symbols.namesake, Microcontroller, Intermediate frequency, law, Control system, 0103 physical sciences, Electronic engineering, symbols, Automatic gain control, Instrumentation, Doppler effect, Remote control
Abstract

Remote control of the diagnostic systems is the basic requirement for the high performance plasma operation in a fusion device. This work presents the development of the remote control system for the multichannel Doppler backward scattering (DBS) reflectometers. It includes a remote controlled quasi-optical system and a remote intermediate frequency (IF) amplifier gain control system. The quasi-optical system contains a rotational polarizer, its polarization angle is tunable through a remote controlled motor, and it could combine the microwave beams with a wide frequency range into one focused beam. The remote IF gain control system utilizes the digital microcontroller (MCU) technique to regulate the signal amplitude for each signal channel. The gain parameters of amplifiers are adjustable, and the feedback of working status in the IF system will be sent to MCU in real time for safe operation. The gain parameters could be controlled either by the Ethernet remote way or directly through the local control interface on the system. Preliminary experimental results show the effectiveness of the remote controlled multichannel DBS system.

Published
2021
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26. Critical velocity shear flow for triggering L-H transition and its parametric dependence in the HL-2A tokamak

Author

M. K. Han, K. R. Fang, J. Q. Dong, X. X. He, X. M. Song, Z. B. Shi, X. R. Duan, Q. W. Yang, X. R. Zhang, Y. Liu, G. L. Xiao, W. Chen, L. W. Yan, M. Jiang, X. L. Zou, J. Wen, W. L. Zhong, P. W. Shi, J. Li, A. Ekedahl, D. L. Yu, M. Xu, X. T. Ding, Z. C. Yang, and A. S. Liang

Subjects
Physics, Nuclear and High Energy Physics, Tokamak, law, Turbulence, Mechanics, Condensed Matter Physics, Critical ionization velocity, Velocity shear, Shear flow, Parametric statistics, law.invention
Published
2020
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27. [The expression characteristics and clinical significance of candidate molecular markers in vocal cord leukoplakia]

Author

W X, Cui, W, Xu, Q W, Yang, Y R, Li, R, Hu, and L Y, Cheng

Subjects
Cyclin-Dependent Kinase Inhibitor p21, Vascular Endothelial Growth Factor A, Hyperplasia, Survivin, PTEN Phosphohydrolase, Vocal Cords, Laryngeal Edema, Prognosis, Inhibitor of Apoptosis Proteins, Laryngeal Diseases, Proto-Oncogene Proteins c-myc, Ki-67 Antigen, Polyps, Humans, Tumor Suppressor Protein p53, Biomarkers, Carcinoma in Situ, Cyclin-Dependent Kinase Inhibitor p16, Leukoplakia
Published
2018

30. Hard X-Ray Camera System Planned for HL-2A Tokamak FAST Electron Bremsstrahlung Tomography

Author

Yi Liu, Y. P. Zhang, B. Lu, G. L. Yuan, X. Y. Song, H. B. Xu, Q. W. Yang, and D. Mazon

Subjects
Physics, Nuclear and High Energy Physics, Tokamak, Photon, business.industry, Mechanical Engineering, Bremsstrahlung, Plasma, Electron, Photon energy, 01 natural sciences, Cadmium telluride photovoltaics, 010305 fluids & plasmas, law.invention, Optics, Nuclear Energy and Engineering, law, 0103 physical sciences, General Materials Science, Tomography, 010306 general physics, business, Civil and Structural Engineering
Abstract

A new hard X-ray (HXR) camera system has been planned to be developed for HL-2A tokamak (R0 = 1.65 m, a = 0.4 m, Bt = 2.8 T, and Ip = 0.5 MA), which is dedicated to the tomography of fast electron bremsstrahlung emission in the energy range 10 to 200 keV. The camera system includes two independent HXR cameras, which are both located in the same poloidal plane. Each camera is made up of 30 detection chords and views the whole poloidal cross section of the plasma. The spatial and temporal resolutions of the camera are 2 to 3 cm and 1 to 2 ms, respectively. HXR detection is performed using cadmium telluride (CdTe) semiconductors. Both simulation and experimental results suggest that an Al foil with a 0.3-mm thickness is the best candidate for filtering the low-energy X-ray photons. Powerful inversion techniques are employed to obtain the local HXR profiles as functions of time and photon energy. The HXR camera system planned for HL-2A tokamak is presented in detail.

Published
2014
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32. Measurements of the fast electron bremsstrahlung during lower hybrid current drive in the HL-2A tokamak

Author

Xuru Duan, W. Chen, Y.G. Li, X.M. Song, P. F. Zhang, X. Y. Bai, J. Zhang, L. Delpech, X. T. Ding, P. Malard, W. L. Zhong, Z. B. Shi, Mitsutaka Isobe, Y. P. Zhang, T. Hoang, B. Lu, J. Zhou, H. B. Xu, Guoliang Yuan, X.L. Zou, Q. W. Yang, Annika Ekedahl, J. W. Yang, D. Mazon, M. Xu, Y. Peysson, Yi Liu, X. Y. Song, X. Li, and Yong Liu

Subjects
010302 applied physics, Physics, Range (particle radiation), Tokamak, Bremsstrahlung, General Physics and Astronomy, 02 engineering and technology, Electron, Plasma, 021001 nanoscience & nanotechnology, Lower hybrid oscillation, 01 natural sciences, lcsh:QC1-999, law.invention, Computational physics, law, 0103 physical sciences, Pinhole camera, Landau damping, 0210 nano-technology, lcsh:Physics
Abstract

Physics related to fast electrons in lower hybrid (LH) current drive (LHCD) plasma is a very important issue, since these particles will play an important role in runaway electron (RE) generation and lower hybrid wave (LHW)-related physics. Utilizing a new hard X-ray (HXR) pinhole camera, recent HL-2A tokamak experiments have devoted to enhancing the understanding of the physics on fast electrons and LHW. The fast electron bremsstrahlung (FEB) emission in the HXR energy range between 20 and 200 keV was measured by the HXR camera. To study the conversion of LHW-produced fast electrons into REs, a very short pulse of LHW, so-called “blip”, with duration of 5 ms was injected into the plasma during the current flattop phase. A strong enhancement of REs was induced by the blip injection. Measurements from the HXR camera show that the fast electrons generated by LHWs is mainly concentrated in 40-60 keV, which is well consistent with the calculated value based on Landau damping theory. The energy of these seed electrons is higher than the critical runaway energy. This phenomenon may be come from the synergetic effects of Dreicer and avalanche RE generation. Moreover, the measurements indicate that the spatial distribution of the fast electrons during LHCD has a peaked profile, implying that the fast electrons are mainly produced in the plasma core. It also suggests that the energy of the LHW mainly deposited in the plasma core region.

Published
2019
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33. Alfvenic Ion Temperature Gradient Activities in a Weak Magnetic Shear Plasma

Author

W. Chen, M. Jiang, Q. W. Yang, P. W. Shi, Yi Liu, Z. B. Shi, M. Xu, Z. X. Wang, J. Q. Dong, Y. G. Li, Liming Yu, Z. C. Yang, B. S. Yuan, X. R. Duan, H. R. Du, Y. H. Xu, Yuke Li, R. R. Ma, and X. T. Ding

Subjects
Physics, FOS: Physical sciences, General Physics and Astronomy, Plasma, 01 natural sciences, Molecular physics, Physics - Plasma Physics, 010305 fluids & plasmas, Ion, Plasma Physics (physics.plasm-ph), Shear (sheet metal), Physics::Plasma Physics, Excited state, Dispersion relation, 0103 physical sciences, Diamagnetism, 010306 general physics, Ohmic contact, Pressure gradient
Abstract

We report the first experimental evidence of Alfvenic ion temperature gradient (AITG) modes in HL-2A Ohmic plasmas. A group of oscillations with $f=15-40$ kHz and $n=3-6$ is detected by various diagnostics in high-density Ohmic regimes. They appear in the plasmas with peaked density profiles and weak magnetic shear, which indicates that corresponding instabilities are excited by pressure gradients. The time trace of the fluctuation spectrogram can be either a frequency staircase, with different modes excited at different times or multiple modes may simultaneously coexist. Theoretical analyses by the extended generalized fishbone-like dispersion relation (GFLDR-E) reveal that mode frequencies scale with ion diamagnetic drift frequency and $\eta_i$, and they lie in KBM-AITG-BAE frequency ranges. AITG modes are most unstable when the magnetic shear is small in low pressure gradient regions. Numerical solutions of the AITG/KBM equation also illuminate why AITG modes can be unstable for weak shear and low pressure gradients. It is worth emphasizing that these instabilities may be linked to the internal transport barrier (ITB) and H-mode pedestal physics for weak magnetic shear., Comment: 9 pages, 7 figures

Published
2016

35. A Modified Variational Iteration Method for Nonlinear Oscillators

Author

J. K. Liu, Q. W. Yang, Y. M. Chen, and W. Zhao

Subjects
Van der Pol oscillator, Applied Mathematics, Mathematical analysis, Computational Mechanics, General Physics and Astronomy, Duffing equation, Statistical and Nonlinear Physics, Nonlinear oscillators, Variational iteration method, Mechanics of Materials, Modeling and Simulation, Modified Richardson iteration, Engineering (miscellaneous), Mathematics
Abstract

A modified variational iteration method (MVIM) is proposed for nonlinear oscillators. Different from the existing VIM, the algebraic equation deduced at each iteration stage is always linear when the proposed approach is applied to conservative oscillators. Therefore, highly accurate approximations can be easily obtained. The Duffing and the van der Pol equations are presented to validate the MVIM. Numerical examples show that the presented method is valid for both weakly and strongly nonlinear oscillators. In addition, it reveals that the MVIM is equivalent to a modified Mickens iteration scheme. Furthermore, the MVIM is extended by means of an auxiliary parameter. This parameter provides us with a convenient way to control and adjust the convergence of VIM approximations when necessary.

Published
2012
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36. Development of Software PHA for Measurements of Soft-X-Ray Spectral Distribution in HL-2A Tokamak

Author

Q. W. Yang, Q. L. Yuan, M. Liao, X. Li, L. Y. Chen, C. W. Luo, Y. P. Zhang, J. W. Yang, and X. Y. Song

Subjects
Nuclear and High Energy Physics, Spectrum analyzer, Tokamak, Materials science, Spectral power distribution, Silicon, Physics::Instrumentation and Detectors, Astrophysics::High Energy Astrophysical Phenomena, 020209 energy, Measure (physics), chemistry.chemical_element, 02 engineering and technology, 01 natural sciences, Spectral line, 010305 fluids & plasmas, law.invention, Optics, law, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, Civil and Structural Engineering, business.industry, Mechanical Engineering, Detector, Time evolution, Nuclear Energy and Engineering, chemistry, business
Abstract

Two silicon drift detectors combine with the new and nonconventional software pulse-height analyzer (SPHA) to measure the time evolution of soft-X-ray spectra, the thermal electron and superthermal...

Published
2010
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37. A Flexibility-Based Method for Structural Damage Identification Using Ambient Modal Data

Author

Q. W. Yang

Subjects
Normalization (statistics), Engineering, business.industry, Sensitivity equation, Acoustics, Building and Construction, Conservation, Structural engineering, Important research, Modal data, Normal mode, Simulated data, Architecture, Ambient vibration, business, Civil and Structural Engineering
Abstract

Structural damage identification using ambient vibration modes has become a very important research area in recent years. The main issue surrounding the use of ambient vibration modes is the mass normalization of the measured mode shapes. This paper presents a promising approach that extends the flexibility sensitivity technique to tackle the ambient vibration case. By introducing the mass normalization factors, manipulating the flexibility sensitivity equation, the unknown damage parameters and mass normalization factors can be computed simultaneously by the least-square technique. The effectiveness of the proposed method is illustrated using simulated data with measurement noise on three examples. It has been shown that the proposed procedure is simple to implement and may be useful for structural damage identification under ambient vibration case.

Published
2009
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38. Damage identification by the eigenparameter decomposition of structural flexibility change

Author

J. K. Liu and Q. W. Yang

Subjects
Flexibility (engineering), Numerical Analysis, Engineering, business.industry, Applied Mathematics, General Engineering, System identification, Parameter identification problem, Identification (information), Decomposition (computer science), Flexibility method, business, Algorithm, Eigenvalues and eigenvectors
Abstract

The use of changes in dynamically measured flexibility matrices to detect structural damage has received considerable attention during the last years. A new flexibility-based method is proposed in this study to provide an insight to the characterizations of structural damage. The presented method makes use of the eigenparameter decomposition of structural flexibility change and approaches the damage identification problem in a decoupled manner. First, a theory is developed to determine the number of damaged elements according to the number of non-zero eigenvalues of structural flexibility change. With the number of damaged elements determined, the localization and quantification algorithms are then developed. The proposed method is applied to three numerical examples and its efficiency is demonstrated through damage simulations. Copyright © 2008 John Wiley & Sons, Ltd.

Published
2009
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39. Design and construction of high-frequency magnetic probe system on the HL-2A tokamak

Author

B. S. Yuan, S. Y. Liang, J. Lu, X. Q. Ji, Q. W. Yang, L. L. Ren, T. F. Sun, and Yuan Xu

Subjects
Frequency response, Tokamak, Materials science, Capacitive sensing, Acoustics, Bandwidth (signal processing), General Physics and Astronomy, 01 natural sciences, Capacitance, lcsh:QC1-999, 010305 fluids & plasmas, law.invention, Inductance, Electromagnetic coil, law, 0103 physical sciences, Equivalent circuit, 010306 general physics, lcsh:Physics
Abstract

A high-frequency magnetic probe system is designed, calibrated and constructed on the HL-2A tokamak. To investigate the factors which affect the probe frequency response, the inductance and capacitance in the probe system are analyzed using an equivalent circuit. Suitable sizes and turn number of the coil, and the length of transmission cable are optimized based on the theory and detailed test in the calibration. To deal with the frequency response limitation and bake-out, the ceramic grooved technique is used and the probe is wound with a bare copper wire. A cascade filter is manufactured with a suitable bandwidth as well as a good phase consistency between channels. The system has been used in the experiment to measure high frequency (≤300 kHz) magnetohydrodynamic fluctuations, which can meet the requirement of physical analysis on HL-2A.

Published
2017
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40. Development of frequency modulated continuous wave reflectometer for electron density profile measurement on the HL-2A tokamak

Author

X. L. Huang, L. Y. Chen, Z. B. Shi, X. T. Ding, Wulyu Zhong, M. Jiang, Q. W. Yang, L. W. Yan, Yi Liu, X. R. Duan, Z. T. Liu, X. M. Song, X. L. Zou, W. Chen, J. Li, and Z. Y. Cui

Subjects
Physics, Electron density, Tokamak, business.industry, Plasma, Polarization (waves), Plasma oscillation, law.invention, Voltage-controlled oscillator, Nuclear magnetic resonance, Optics, law, Continuous wave, Plasma diagnostics, business, Instrumentation
Abstract

The frequency modulated continuous wave reflectometer was developed for the first time on the HL-2A tokamak. The system utilizes a voltage controlled oscillator and an active multiplier for broadband coverage and detects as heterodyne mode. Three reflectometers have been installed and operated in extraordinary mode polarization on HL-2A to measure density profiles at low field side, covering the Q-band (33–50 GHz), V-band (50–75 GHz), and W-band (75–110 GHz). For density profile reconstruction from the phase shift of the probing wave, a corrected phase unwrapping method is introduced in this article. The effectiveness of the method is demonstrated. The density profile behavior of a fast plasma event is presented and it demonstrates the capability of the reflectometer. These diagnostics will be contributed to the routine density profile measurements and the plasma physics study on HL-2A.

Published
2014

41. An Exact Approach for Structural Damage Assessment

Author

Q. W. Yang

Subjects
Flexibility (engineering), Mathematical optimization, Statically indeterminate, Article Subject, General Mathematics, Computation, lcsh:Mathematics, General Engineering, Stiffness, lcsh:QA1-939, Matrix decomposition, Matrix (mathematics), lcsh:TA1-2040, medicine, Flexibility method, Applied mathematics, Direct stiffness method, medicine.symptom, lcsh:Engineering (General). Civil engineering (General), Mathematics
Abstract

An exact approach is proposed for damage identification in statically determinate structures. The contribution of this study is twofold. Firstly, a rigorous disassembly formulation of structural global flexibility matrix is presented based on the matrix spectral decomposition, which can provide an exact relationship between the modifications of structural stiffness parameters and the associated flexibility matrix. Secondly, the static minimum-rank flexibility change is derived to obtain the exact flexibility change before and after damage. The proposed method is economical in computation and is simple to implement. For the statically determinate structures, the proposed method can exactly compute the elemental perturbed stiffness parameter only using a few of incomplete static displacement data. The efficiency of the proposed method is demonstrated by two statically determinate structures.

Published
2013

42. Roles of turbulence– and pressure-gradient–induced flows in triggering H-mode at marginal heating power on HL-2A tokamak

Author

X. R. Duan, X. Q. Ji, K. J. Zhao, J. Q. Xu, Z. H. Huang, J. Cheng, Q. W. Yang, X. L. Zou, Z. X. He, Z. B. Shi, Y. Huang, Lei Liu, J.Q. Dong, D. L. Yu, X. T. Ding, L. W. Yan, X. M. Song, W. L. Zhong, Huasheng Xie, and Y. Xiao

Subjects
Physics, Heating power, Tokamak, Turbulence, Limit cycle oscillation, Mode (statistics), General Physics and Astronomy, Thermodynamics, Zonal flow (plasma), Plasma, Mechanics, 01 natural sciences, 010305 fluids & plasmas, law.invention, Physics::Fluid Dynamics, law, 0103 physical sciences, 010306 general physics, Pressure gradient
Abstract

A qualitative model which includes three loops of zonal flow vs. turbulence and turbulence vs. pressure gradient is proposed for the experimentally observed two types of limit cycle oscillations (LCOs) and low-intermediate-high (L-I-H) confinement transitions. The experimental evidences supporting the model and revealing the roles of turbulence– and pressure-gradient–induced flows in triggering the H-mode at marginal heating power in tokamak plasmas are presented. The dominant role played by pressure-gradient–induced flows in I-phase of type-J LCO as well as I-H transition is demonstrated, along with that done by the turbulent-Reynolds-stress–driven zonal flows in the L-I transition as well as I-phase of type-Y LCO. The trigger and conditions for the I-H transition are identified from the experimental observations.

Published
2016
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43. Time-frequency analysis for microwave reflectometry data processing in the HL-2A tokamak

Author

L. W. Yan, Z. T. Liu, Wulyu Zhong, Y. B. Dong, Yi Liu, Z. Y. Cui, X. T. Ding, X. L. Huang, W. W. Xiao, Z. B. Shi, Q. W. Yang, X. Q. Ji, X. R. Duan, and X. L. Zou

Subjects
Signal processing, Tokamak, Materials science, Acoustics, law.invention, Time–frequency analysis, Direct-conversion receiver, Nuclear magnetic resonance, Homodyne detection, law, Spectrogram, Reflectometry, Instrumentation, Group delay and phase delay
Abstract

The Choi-Williams distribution (CWD) technique is introduced as a time-frequency tool for processing data measured from the new developed homodyne and the fixed frequency reflectometry in the HL-2A tokamak. The comparison between spectrogram and CWD for the simulated signal is presented. It indicates that the CWD can greatly improve the representation of the time-frequency content of the multi-components signal. Its effectiveness is demonstrated through two applications in HL-2A, which are the extraction of beat frequencies from the frequency modulated-continuous wave reflectometry (FM-CW) and the characterizing of the fluctuations. The density profile inversed from the group delay of the FM-CW and the density fluctuations deduced from the fixed-frequency reflectometry would be more reliable and accurate by using the CWD technique.

Published
2011

44. Observation of turbulence suppression after electron-cyclotron-resonance-heating switch-off on the HL-2A tokamak

Author

Yong Liu, Z. B. Shi, X. R. Duan, Q. W. Yang, Jizhong Zhou, X. T. Ding, Z. T. Liu, Y. G. Li, Y. Zhou, W. W. Xiao, Z. W. Xia, Wei Li, A. P. Sun, Y. B. Dong, J. Rao, and H. J. Sun

Subjects
Core (optical fiber), Physics, Mode number, Tokamak, Physics::Plasma Physics, law, Turbulence, Electron temperature, Plasma, Transient (oscillation), Atomic physics, Electron cyclotron resonance, law.invention
Abstract

The formation of a transient internal transport barrier (ITB) is observed after the electron-cyclotron-resonance-heating (ECRH) switch-off in the HL-2A plasmas, characterized by transient increase of central electron temperature. The newly developed correlation reflectometer provided direct measurements showing reduction of turbulence in the region of steepened gradients for the period of ITB formation triggered by the ECRH switch-off. Furthermore, the reduction of core turbulence is correlated in time with the appearance of a low-frequency mode with a spectrally broad poloidal structure that peaks near zero frequency in the core region. These structures have low poloidal mode number, high poloidal correlation, and short radial correlation and are strongly coupled with high-frequency ambient turbulence. Observation indicates that these structures play important roles in the reduction of the core turbulence and in improvements of the core transport after the off-axis ECRH is turned off.

Published
2011
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45. Operation of HL-2A tokamak

Author

G. J. Lei, X. M. Song, X. R. Duan, D. Q. Liu, Y. Huang, Yi Liu, J. Rao, Yong Liu, L.Y. Chen, B. Li, L.Y. Yao, X. T. Ding, Z. Cao, C. H. Pan, Q. W. Yang, L. W. Yan, J. Q. Dong, J.Y. Cao, W. M. Xuan, and X. D. Li

Subjects
Physics, Nuclear and High Energy Physics, Tokamak, Plasma parameters, Thomson scattering, Electron, Plasma, Condensed Matter Physics, law.invention, Computational physics, symbols.namesake, law, symbols, Langmuir probe, Plasma diagnostics, Magnetohydrodynamics, Atomic physics, Edge-localized mode, Molecular beam
Abstract

The operation conditions have been improved via developing new technologies and improving the hardware on HL-2A tokamak in recent years. The ECRH system has been upgraded to 3 MW/68 GHz, the supersonic molecular beam injection (SMBI) fuelling technique has been developed further, and clusters can be formed in the SMB by cooling the gas to around liquid nitrogen temperature, so that deeper penetration can be achieved. Moreover, there are about 30 kinds of diagnostics developed on HL-2A to measure the plasma parameters. These diagnostic systems include magnetics, microwave reflectometry, charge exchange recombination spectroscopy, Thomson scattering, FIR interferometer. Some of them were specially designed for the physics experiments. For example, a novel design of Langmuir probes was developed to study the 3-D structure of zonal flows. With these hardware development and improvement, new experimental results have been achieved in the fields of turbulence, transport, MHD instabilities, and energetic particle dynamics. In particular, the edge localized mode (ELM)y H-mode has been achieved by combining the auxiliary heating of NBI and ECRH, SMBI is beneficial for the L-H transition and the H-mode operation on HL-2A, and suitable for studying particle transport and controlling the ELMs during H-mode discharges due to its deep and local injection features and good controllability. In addition, the 3-D spectral structures of the low-frequency zonal flow and quasi-mode, which were predicted by theory and simulation, have been observed simultaneously. The beta-induced Alfven eigenmodes (BAEs), excited by large magnetic islands (m-BAE) and by energetic electrons (e-BAE), are investigated, these phenomena are under further study.

Published
2011
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46. A Flexibility-Based Damage Identification Method Using Ambient Modal Data

Author

Q. W. Yang and C. H. Li

Subjects
Vibration, Normalization (statistics), Normal mode, Computer science, Acoustics, Modal analysis, Condition monitoring, Truss, Ambient vibration, Finite element method
Abstract

Structural damage identification using ambient vibration modes has become a very important research area in recent years. The main issue surrounding the use of ambient vibration modes is the mass normalization of the measured mode shapes. This paper presents a promising approach that extends the flexibility sensitivity technique to tackle the ambient vibration case. By introducing the mass normalization factors, manipulating the flexibility sensitivity equation, the unknown damage parameters and mass normalization factors can be computed simultaneously by the least-square technique. The effectiveness of the proposed method is illustrated using simulated data with measurement noise on a steel truss structure. The results show the good efficiency and stability of the proposed method on the identification of damage on more than one element. It has been shown that the proposed procedure is simple to implement and may be useful for structural damage identification under ambient vibration case.

Published
2009
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47. Damage Detection for Truss Structures Using Incomplete Modes

Author

Q. W. Yang and W. M. Jin

Subjects
Mechanical system, Mathematical optimization, business.industry, Truss, Structural engineering, Sensitivity (control systems), business, Measure (mathematics), Eigenvalues and eigenvectors, Finite element method, Eigenvalue perturbation, Mathematics, Test data
Abstract

This paper presents a damage detection method for truss structures using incomplete measured modes. The underlying principle of the proposed technique is to add known masses to the physical structure, measure the natural frequencies of this mass-modified system, and then use this set of new data as well as the original test data to identify damages with the help of eigenvalue perturbation method. Regardless of whether the structure is unsymmetrical or symmetrical, the proposed method can precisely identify damages of truss structures only by changes of the first few natural frequencies. The method has the practical attraction of only requiring information about the changes in a few of the eigenvalues between the undamaged and damaged states. A plane truss structure is used as a numerical example to demonstrate the feasibility of the proposed scheme. Results show that the presented method can successfully detect both the location and extent of damage in the truss structure even if the noisy data inevitably make the damage detection more difficult.

Published
2009
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48. Antigenic and immunogenic characterization of infectious bronchitis virus strains isolated in China between 1986 and 1995

Author

Z Q Wu, Q W Yang, X Y Zhao, C Fu, and Jagoda Ignjatovic

Subjects
Serotype, General Immunology and Microbiology, Strain (chemistry), medicine.drug_class, A serotype, Infectious bronchitis virus, Biology, medicine.disease, Monoclonal antibody, Virology, Article, Microbiology, Food Animals, Antigen, medicine, Animal Science and Zoology, Flock, Nephritis
Abstract

Eight strains of infectious bronchitis virus (IBV) were isolated between 1986 and 1995 from broilers and layers at eight different farms in four provinces in China. The viruses were isolated from flocks which suffered from either respiratory disease or nephritis and the majority had not been vaccinated against IBV. Six strains were shown by monoclonal antibodies to differ from H120, Connecticut and Arkansas 99 strains of IBV and also to differ from each other. Four of these strains were serotyped; one (NRZ) was of the Massachusetts serotype, three (HV, NB-90 and TJ) shared a degree of antigenic similarity and were of a serotype that differed from Massachusetts and Connecticut. NB-90 was similar to both Gray and T strains whereas TJ shared some similarity with the T strain. Four strains, HV, NB-90, YY and TJ induced 33, 47, 60 and 90% mortality, respectively, in 3-week-old specific pathogen-free chickens. Clinical signs and post-mortem findings were identical to those induced by the nephropathogenic T strain. Chickens vaccinated with H120 strain, and then challenged with four highly pathogenic strains HV, NB-90, YY and TJ were not protected as determined by both virus isolation and mortality. The results show that highly pathogenic IBV strains which induce clinical nephritis occur frequently in poultry flocks in China. They also confirm field observations on the lack of protection by currently used IB vaccines of the Massachusetts serotype against challenge with these nephropathogenic strains.

Published
2008

49. [Expression of EGFR in keratosis of laryngeal and the correlation with malignant phenotype]

Author

J, Wang, Q W, Yang, and Z P, Wang

Subjects
Adult, ErbB Receptors, Laryngeal Diseases, Male, Phenotype, Humans, Female, Keratosis, Middle Aged, Prognosis, Aged
Abstract

To evaluate the roles of EGFR expression in laryngeal keratosis.The ABC immunohistochemical method was performed to investigate the expression of EGFR in 32 cases of laryngeal keratosis tissue.The EGFR indices in light, moderate and serious non-typical hyperplasia were 12.5%, 22.5% and 47.8% respectively. There were significant differences between heavy with light and middle non-typical hyperplasia (P0.05).The EGFR might play some role in the process of carcinogenesis of laryngeal keratosis, and be as an useful marker for the assessment of the behavior and prognosis in the laryngeal premalignant lesions keratosis.

Published
2003

50. Observation and theory of nonlinear mode couplings between shear Alfvén wave and magnetic island in tokamak plasmas

Author

L. W. Yan, Q. W. Yang, J. Y. Cao, X. R. Duan, Y. P. Zhang, Zhiyong Qiu, X. M. Song, Yi Liu, J. Q. Dong, J. X. Li, Huasheng Xie, Z. B. Shi, S. D. Song, M. Xu, Liming Yu, Y. G. Li, W. Chen, X. Q. Ji, and X. T. Ding

Subjects
Physics, Tokamak, Turbulence, General Physics and Astronomy, law.invention, Alfvén wave, Nonlinear system, Classical mechanics, Physics::Plasma Physics, law, Quantum electrodynamics, Energy cascade, Physics::Space Physics, Mode coupling, Magnetohydrodynamics, Bicoherence
Abstract

Experimental observation and theoretical analysis are presented for the nonlinear mode couplings between shear Alfven wave and magnetic island. In the sub-Alfven frequency range, two kind axi-symmetry magnetic activities with n = 0 have been observed during NBI on HL-2A. One kind has been identified, and belongs to EGAM. Another kind is found for the first time, its frequency lies in the range of TAE frequency. The Fourier bicoherence analysis suggests these axi-symmetry modes are generated by the nonlinear mode coupling via the decay process between Alfven eigenmodes and low-frequency MHD modes. The experimental results indicate that the nonlinear mode coupling is one of mechanisms of the energy cascade in energetic-particle turbulence or Alfven turbulence.

Published
2014
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