Your search keyword '"Xuantong Ding"' showing total 20 results

1. Comparison of ELM-Filament Mitigation Between Supersonic Molecular Beam Injection and Pellet Injection on HL-2A

Author

Xuantong Ding, Qingwei Yang, C. Y. Chen, Min Xu, Xu Hongbing, Wandong Liu, Beibin Feng, Jinming Gao, Jiaqi Dong, Y. Huang, Jun Cheng, Lianghua Yao, Xuru Duan, Zhu Genliang, Lin Nie, Yu-Hong Xu, L.W. Yan, W.L. Zhong, and Deliang Yu

Subjects

Chemistry, Drop (liquid), Collisionality, Condensed Matter Physics, 01 natural sciences, Magnetic flux, 010305 fluids & plasmas, Protein filament, Amplitude, Physics::Plasma Physics, 0103 physical sciences, Supersonic speed, Atomic physics, 010306 general physics, Edge-localized mode, Molecular beam

Abstract

On HL-2A, two different injections (supersonic molecular beam injection (SMBI) and pellet injection (PI)) are used to mitigate edge localized mode (ELM)-filament convective transport. The changes of their characteristics are studied in this paper. A high spatiotemporal resolution probe shows there are many similar phenomena, and the filament density amplitude and radial velocity are both suppressed. Our statistical results indicate that: the velocity suppression comes from the decrease of filament density and temperature; the transient particle and heat fluxes drop strongly; and long-range correlation along a magnetic flux surface also decreases, when the electron-ion collisionality increases significantly, which may have a role on the filament parallel current during ELM mitigation.

Published

2016

2. Heat Transport During H-Mode in the HL-2A Tokamak

Author

Yunbo Dong, W.L. Zhong, Lianghua Yao, Z. T. Liu, C. Y. Chen, Qingwei Yang, Zhongbing Shi, Beibin Feng, Z.Y. Cui, Xianli Huang, and Xuantong Ding

Subjects

Tokamak, Chemistry, Plasma, Electron, Condensed Matter Physics, law.invention, Amplitude, Pedestal, Physics::Plasma Physics, law, Electron temperature, Supersonic speed, Atomic physics, Molecular beam

Abstract

Perturbative experiments on electron heat transport have been successfully conducted on the HL-2A tokamak. The pulse propagation of the electron temperature is induced by the supersonic molecular beam injection (SMBI), which has characteristics of good localization and deep deposition. A model based on the electron heat transport in cylindrical geometry has been applied to reconstruct the measured amplitude and phase profiles of the electron temperature perturbation. The results show that the heat transport is significantly reduced near the pedestal region of the H-mode plasma. In the "profile stiffness/resilience" region, similar heat diffusivities have been observed in L-mode and H-mode plasmas, which verifies the gradient-driven transport physics in tokamaks.

Published

2013

3. Plasma behaviour with hydrogen supersonic molecular beam and cluster jet injection in the HL-2A tokamak

Author

Chengyuan Chen, H. J. Sun, Wei Li, Zhongbin Shi, Yiming Jiao, Jie Lu, Xuantong Ding, Guoquan Ni, B.S. Yuan, Xuru Duan, Yu-Dong Pan, W.Y. Hong, Haiyang Lu, Lianghua Yao, Y. Zhou, Yong Liu, Hong Ran, Weiwen Xiao, and B.B. Feng

Subjects

Nuclear and High Energy Physics, Jet (fluid), Materials science, Tokamak, Hydrogen, Divertor, chemistry.chemical_element, Plasma, Condensed Matter Physics, law.invention, chemistry, law, Supersonic speed, Atomic physics, Penetration depth, Molecular beam

Abstract

The experimental results of low pressure supersonic molecular beam injection (SMBI) fuelling on the HL-2A closed divertor indicate that during the period of pulsed SMBI the power density convected at the target plate surfaces was 0.4 times of that before or after the beam injection. An empirical scaling law used for the SMBI penetration depth for the HL-2A plasma was obtained. The cluster jet injection (CJI) is a new fuelling method which is based on and developed from the experiments of SMBI in the HL-1M tokamak. The hydrogen clusters are produced at liquid nitrogen temperature in a supersonic adiabatic expansion of moderate backing pressure gases into vacuum through a Laval nozzle and are measured by Rayleigh scattering. The measurement results have shown that the averaged cluster size of as large as hundreds of atoms was found at the backing pressures of more than 0.1 MPa. Multifold diagnostics gave coincidental evidence that when there was hydrogen CJI in the HL-2A plasma, a great deal of particles from the jet were deposited at a terminal area rather than uniformly ablated along the injecting path. SMB with clusters, which are like micro-pellets, will be of benefit for deeper fuelling, and its injection behaviour was somewhat similar to that of pellet injection. Both the particle penetration depth and the fuelling efficiency of the CJI were distinctly better than that of the normal SMBI under similar discharge operation. During hydrogen CJI or high-pressure SMBI, a combination of collision and radiative stopping forced the runaway electrons to cool down to thermal velocity due to such a massive fuelling.

Published

2007

4. Overview of the HL-1M Tokamak Experiments

Author

Jiancheng Yan, Xuantong Ding, Enyao Wang, Shangjie Qian, Yong Liu, and Longwen Yan

Subjects

Nuclear and High Energy Physics, Materials science, Tokamak, 020209 energy, Mechanical Engineering, Resonance, Magnetic confinement fusion, 02 engineering and technology, Electron, Plasma, 01 natural sciences, Neutral beam injection, Electron cyclotron resonance, 010305 fluids & plasmas, law.invention, Nuclear Energy and Engineering, law, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, Atomic physics, Molecular beam, Civil and Structural Engineering

Abstract

Experimental progress with the HL-1M tokamak has been made in many areas including confinement improvement, auxiliary heating, plasma fueling, and wall conditionings. An H-mode induced by a biased electrode was obtained with the formation of an internal transport barrier at the region of r/a {approx} 0.4 to 0.5. Confinement improvement by lower-hybrid current drive (LHCD) was extensively investigated. Confinement improvement seems to be related to the production of the radial electron field during LHCD. In off-axis electron cyclotron resonance heating (ECRH), double sawteeth in soft X-ray radiation were observed, which implies that reversed magnetic shear could be formed during ECRH. At higher ECRH power, when the resonance position is near the q = 1 surface, fishbone instability was observed and investigated. An eight-shot pellet injector was used for the experiments. The pellet ablation process was investigated with a charge-coupled device (CCD) camera and an H{sub {alpha}} emission detector array. Clearly, asymmetry in the pellet cloud was observed in both the toroidal and poloidal directions. It has been found that the pellet velocity slows down clearly after the pellet enters the plasma. The density limit has been investigated on HL-1M at different wall conditionings with three kinds of fueling methods. Itmore » was found that a higher density limit could be achieved under the following conditions: (a) a strong reduction of the impurity content after siliconization and (b) a peaked density profile with pellet injection and/or supersonic molecular beam injection. With a neutral beam injection (NBI) system of 1 MW, preliminary results of NBI experiments were obtained with an increase of ion temperature from 450 to 700 eV.« less

Published

2002

5. Destabilization of beta-induce Alfvén eigenmodes by energetic trapped ions in low-magnetic-shear plasma

Author

Liming Yu, Xuantong Ding, Hongda He, Ruirui Ma, and Wei Chen

Subjects

Physics, Tokamak, Plasma parameters, Resonance, Plasma, Condensed Matter Physics, 01 natural sciences, 010305 fluids & plasmas, law.invention, Shear (sheet metal), Physics::Plasma Physics, law, Dispersion relation, Beta (plasma physics), 0103 physical sciences, Atomic physics, 010306 general physics, Shear flow

Abstract

The dispersion relation for high toroidal mode number n beta-induced Alfven eigenmodes (BAEs) excited by magnetically trapped energetic ions generated with ion-cyclotron resonance heating via precessional resonance in low magnetic shear (s) tokamak plasma is investigated analytically and numerically. The dynamics of the energetic particles (EPs) is treated non-perturbatively and finite drift orbit width (FOW) effects are taken into account. It is found that, depending on the plasma parameters, the most unstable mode can be either the BAE mode or the energetic particle mode (EPM). Both modes can resonate with the trapped-particles' magnetic precessional drifts and become unstable. The mode frequencies and growth rates depend strongly on the EP parameters. FOW can stabilize high-n BAE modes by reducing the wave-particle interaction. Magnetic shear has an important effect on the growth rate of the modes. For BAE, the growth rate presents the trend of first increase and following decrease with the increase of...

Published

2017

6. First measurements of highly ionized impurity emission distribution by grazing-incidence flat-field extreme ultraviolet spectrometer in HL-2A

Author

Hangyu Zhou, Chunfeng Dong, Shigeru Morita, Xuru Duan, Xuantong Ding, Zhengying Cui, Ping Lu, Qingwei Yang, Bingzhong Fu, and Ping Sun

Subjects

Physics, Holographic grating, Spectrometer, business.industry, Stray light, Extreme ultraviolet lithography, Radius, Optics, Extreme ultraviolet, Ionization, Plasma diagnostics, Atomic physics, business, Instrumentation

Abstract

A space-resolved grazing-incidence flat-field extreme ultraviolet (EUV) spectrometer has been developed in the HL-2A tokamak to measure vertical impurity emission profiles with simultaneous spectral, temporal, and spatial resolution. The spectrometer working in the wavelength range of 30-500 Å has been equipped with a gold-coated varied-line-spacing holographic grating with curvature of 5606 mm and a back illuminated charge-coupled device with size of 6.6 × 26.6 mm(2) (255 × 1024 pixels). A lower half of the HL-2A plasma with averaged minor radius of 40 cm is observed when the spectrometer with horizontal dispersion is placed at a distance of 7.5 m away from the plasma center. An excellent spatial resolution of 12 mm is achieved when a space-resolved slit with vertical width of 0.5 mm is adopted. The radial profiles of intrinsic impurities in several ionization stages have been measured with high throughput and extremely low stray light.

Published

2014

7. Transition and Interaction of Low-Frequency Magnetohydrodynamic Modes during Neutral Beam Injection Heating on HL-2A

Author

D. L. Yu, Jiaxian Li, Xuantong Ding, Yu Liming, Longwen Yan, Beibin Feng, M. Xu, Ma Rui, wei chen, Li Yonggao, Y. Huang, Min Jiang, Z. B. Shi, Dong Li, Xianming Song, Xuru Duan, Jiaqi Dong, Yuhong Xu, Yi Liu, Qingwei Yang, J.Y. Cao, Wei Li, Yan Zhou, Jun Rao, and Xiaoquan Ji

Subjects

Physics, Tokamak, law, 0103 physical sciences, General Physics and Astronomy, Magnetohydrodynamic drive, Atomic physics, Low frequency, 010306 general physics, 01 natural sciences, Neutral beam injection, 010305 fluids & plasmas, law.invention

Abstract

The strong fishbone mode (FB) and long-lived mode (LLM) have been observed during neutral beam injection (NBI) on the HL-2A tokamak. The FB and LLM can transit between each other. The LLM is identi...

Published

2017

8. Study of energetic particle physics with advanced ECEI system on the HL-2A tokamak

Author

Yan Zhou, Li Yonggao, Wei Chen, Bingzhong Fu, B.S. Yuan, Liming Yu, Mei Huang, Shi Zhongbing, Xuru Duan, P.W. Shi, Boyu Zhang, Jiaxuan Li, Xiaoquan Ji, Z. T. Liu, Shaodong Song, Wulyu Zhong, Yuhong Xu, Z.C. Yang, Qingwei Yang, Xuantong Ding, Xianming Song, and Min Jiang

Subjects

Physics, Fusion, Tokamak, QC1-999, Thermal transfer, Plasma, Electron, 01 natural sciences, 010305 fluids & plasmas, law.invention, Physics::Plasma Physics, law, Excited state, 0103 physical sciences, Mode coupling, Diamagnetism, Atomic physics, 010306 general physics

Abstract

Understanding the physics of energetic particles (EP) is crucial for the burning plasmas in next generation fusion devices such as ITER. In this work, three types of internal kink modes (a saturated internal kink mode (SK), a resonant internal kink mode (RK), and a double e-fishbone) excited by energetic particles in the low density discharges during ECRH/ECCD heating have been studied by the newly developed 24(poloidal) × 16(radial) = 384 channel ECEI system on the HL-2A tokamak. The SK and RK rotate in the electron diamagnetic direction poloidally and are destabilized by the energetic trapped electrons. The SK is destabilized in the case of qmin > 1, while the RK is destabilized in the case of qmin < 1. The double e-fishbone, which has two m/n = 1/1 modes propagating in the opposite directions poloidally, has been observed during plasma current ramp-up with counter-ECCD. Strong thermal transfer and mode coupling between the two m/n = 1/1 modes have been studied.

Published

2017

9. A new neutral particle analyzer diagnostic and its first commissioning on HL-2A

Author

Xuantong Ding, Z. W. Xia, Qingwei Yang, Wei Li, and J. Lu

Subjects

Range (particle radiation), Spectrum analyzer, Materials science, business.industry, Condenser (optics), High voltage, Optics, Electron temperature, Pinhole (optics), Plasma diagnostics, Atomic physics, Neutral particle, business, Instrumentation

Abstract

A new neutral particle analyzer diagnostic has been developed for HuanLiuqi-2A (commonly referred to as HL-2A), which can provide the neutral particle flux measurement along 11 separate sightlines, simultaneously, within a wider energy range (1—70 keV). It is an electrostatic type analyzer with a removable pinhole and special-shape condenser. The energy analysis can be flexibly achieved by controlling a preset stepwise high voltage on the condenser. It is compact and its field of view covers HL-2A cross section from −33 cm to 33 cm without “cross-talk.” The energy spectra and ion temperature profile have been obtained during its commissioning.

Published

2012

10. Frequency-resolved nonlinear turbulent energy transfer into zonal flows in strongly heated L-mode plasmas in the HL-2A tokamak

Author

S. Chakraborty Thakur, Jiaqi Dong, Jun Cheng, Christopher Holland, X. M. Song, George Tynan, Y. Huang, W.Y. Hong, J.H. Yu, Zhongbing Shi, W.L. Zhong, Laizhong Cai, Xuru Duan, P. Manz, Min Xu, N. Fedorczak, Qingwei Yang, Yi Liu, K.J. Zhao, Xuantong Ding, Longwen Yan, and Patrick Diamond

Subjects

Physics, Range (particle radiation), Tokamak, Turbulence, General Physics and Astronomy, Reynolds stress, Plasma, law.invention, Amplitude, law, Physics::Plasma Physics, Electric field, Turbulence kinetic energy, Atomic physics, Physics::Chemical Physics

Abstract

The absolute rate of nonlinear energy transfer among broadband turbulence, low-frequency zonal flows (ZFs) and geodesic acoustic modes (GAMs) was measured for the first time in fusion-grade plasmas using two independent methods across a range of heating powers. The results show that turbulent kinetic energy from intermediate frequencies (20-80 kHz) was transferred into ZFs and GAMs, as well as into fluctuations at higher frequencies (>80kHz). As the heating power was increased, the energy transfer from turbulence into GAMs and the GAM amplitudes increased, peaked and then decreased, while the energy transfer into the ZFs and the ZFs themselves increased monotonically with heating power. Thus there exists a competition between ZFs and GAMs for the transfer of turbulent energy, and the transfer into ZFs becomes dominant as the heating power is increased. The poloidal-radial Reynolds stress and the mean radial electric field profiles were also measured at different heating powers and found to be consistent with the energy transfer measurement. The results suggest that ZFs play an important role in the low-to-high (L-H) plasma confinement transition. © 2012 American Physical Society.

Published

2011

11. Space-resolved vacuum ultraviolet spectrometer system for edge impurity and temperature profile measurement in HL-2A

Author

Bingzhong Fu, Shigeru Morita, Zhengying Cui, Yuan Xu, Qingwei Yang, Ping Lu, Yadong Gao, Xuru Duan, Y. Huang, Ping Sun, Quanming Wang, Xuantong Ding, and Chunfeng Dong

Subjects

Physics, Spectrometer, business.industry, Physics::Optics, Grating, Spectral line, Wavelength, Optics, Electron temperature, Plasma diagnostics, Emission spectrum, Atomic physics, business, Instrumentation, Diffraction grating

Abstract

A 1 m normal incidence vacuum ultraviolet (VUV) spectrometer has been developed for spatial distribution measurement of edge impurity line emission in the wavelength range of 300-3200 A on HL-2A tokamak. A vertical profile of the impurity line emission is measured with a space-resolved slit placed between an entrance slit and a grating of the spectrometer. Two concave 1200 grooves/mm gratings blazed at 800 and 1500 A are set on a rotatable holder in the spectrometer, which gives wavelength dispersion of 0.12 mm/A. A back-illuminated charge-coupled device is used as a detector with an image size of 6.7 x 26.6 mm(2) (26 x 26 microm(2)/pixel). An excellent spatial resolution of 2 mm is obtained with good spectral resolution of 0.15 A when the space-resolved slit of 50 microm in width is used. The space-resolved spectra thus provide three radial profiles of emission line intensity, ion temperature, and poloidal rotation. The electron temperature can be measured by the intensity ratio, e.g., CIII 2s(2)-2s3p (386 A)/2s(2)-2s2p (977 A). The sensitivity of the spectrometer is calibrated in situ by using the VUV bremsstrahlung continuum radiation emitted from the tokamak plasma. A good performance of the spectrometer system for the edge impurity and temperature profile measurements is presented with results on Ohmic and H-mode discharges.

Published

2010

12. Note: Upgrade of electron cyclotron emission imaging system and preliminary results on HL-2A tokamak

Author

Wei Chen, Y. Xu, Xuantong Ding, Min Jiang, Qingwei Yang, Yong Liu, Wulyu Zhong, B. Z. Fu, B. Y. Zhang, P. W. Shi, Calvin Domier, Z. B. Shi, Z. T. Liu, Z.C. Yang, and Neville C. Luhmann

Subjects

Physics, Tokamak, business.industry, Local oscillator, Resolution (electron density), Cyclotron, Field of view, law.invention, Optics, law, Temporal resolution, Plasma diagnostics, Atomic physics, business, Instrumentation, Image resolution

Abstract

The electron cyclotron emission imaging system on the HL-2A tokamak has been upgraded to 24 (poloidally) × 16 (radially) channels based on the previous 24 × 8 array. The measurement region can be flexibly shifted due to the independence of the two local oscillator sources, and the field of view can be adjusted easily by changing the position of the zoom lenses. The temporal resolution is about 2.5 μs and the achievable spatial resolution is 1 cm. After laboratory calibration, it was installed on HL-2A tokamak in 2014, and the local 2D mode structures of MHD activities were obtained for the first time.

Published

2015

13. Dynamics of low–intermediate–high-confinement transitions in the HL-2A tokamak

Author

K.J. Zhao, Y G Li, Xuru Duan, Zhongbing Shi, Qingwei Yang, Xiaoquan Ji, Xuantong Ding, Wulyu Zhong, Yong Liu, J.Q. Dong, Z Y Cui, L Nie, W Chen, M Xu, L W Yan, Y B Dong, Y Xu, D L Yu, Min Jiang, J Cheng, Y Liu, and Z H Huang

Subjects

Physics, Tokamak, business.industry, Oscillation, Turbulence, Magnetic confinement fusion, Zonal flow (plasma), Condensed Matter Physics, Instability, law.invention, Optics, Nuclear Energy and Engineering, law, Magnetohydrodynamics, Atomic physics, business, Pressure gradient

Abstract

In recent experiments at the HL-2A tokamak, dynamic features across the low–intermediate–high (L–I–H) confinement transition have been investigated in detail. Experimental evidence shows two types of opposite limit cycles (dubbed type-Y and type-J) between the radial electric field (Er) and turbulence evolution during the intermediate I-phase. Whereas for type-Y the turbulence grows prior to the change in Er, for type-J the oscillation in Er leads turbulence. It has been found that the type-Y usually appears first after an L–I transition, followed by type-J before the transition to the H-mode phase. Possible roles played by zonal flows and the enhanced pressure-gradient-induced flow shear in suppressing turbulence, respectively, in the type-Y and type-J periods have been identified. In addition, during the I-phase of the L–I–H discharges a kink-type MHD mode routinely occurs and crashes rapidly just prior to the I → H transition. The mode crash evokes substantial energy release from the core to plasma boundary and further increases the edge pressure gradient and Er shear, which eventually results in confinement improvement into the H-mode.

Published

2014

14. Long-lasting energetic particle modes in tokamak plasmas with low magnetic shear

Author

Xuantong Ding, Xuru Duan, Chijie Xiao, Wei Chen, Wei Deng, Yi Liu, Xian-Qu Wang, Rui-Bin Zhang, and Xiaogang Wang

Subjects

Physics, Tokamak, Plasma, Condensed Matter Physics, Instability, Neutral beam injection, law.invention, Ion, Shear (sheet metal), Amplitude, Nuclear Energy and Engineering, law, Dispersion relation, Atomic physics

Abstract

A long-lasting (for hundreds of milliseconds) m/n = 1 energetic particle mode driven by trapped fast ions, other than conventional fishbone bursts, is studied theoretically and in comparison with HL-2A experimental results. The mode can be observed in weak shear tokamak plasmas during neutral beam injection with a mostly steady amplitude envelope of long-lasting magnetic perturbation signals. The dispersion relation and radial structure of the mode are calculated with a weak shear q-profile. Both the m/n = 1/1 component and its higher frequency m/n = 2/2 harmonics are found to be unstable, in good agreement with experimental observations on HL-2A. On the other hand, due to the feature of weak magnetic shear, the mode is also significantly different from bursty fishbones, especially the mode structure, temporal behavior, instability threshold and growth rate dependence on the fast ion gradient. The nonlinear evolution of the mode and the comparison with fishbone bursts are also further investigated.

Published

2014

15. Analysis of electron heat transport with off-axis modulated ECRH in Tore Supra

Author

D. Elbeze, F. Clairet, E. Corbel, Xuantong Ding, R. Magne, W.W. Xiao, F. Bouquey, X.L. Zou, V. Basiuk, C. Fenzi, Bojiang Ding, J. L. Segui, S. Song, T. Aniel, J.F. Artaud, and G. Giruzzi

Subjects

Convection, Nuclear and High Energy Physics, Tokamak, Materials science, Condensed matter physics, Electron, Tore Supra, Condensed Matter Physics, Thermal diffusivity, Electron cyclotron resonance, law.invention, Physics::Plasma Physics, law, Pinch, Atomic physics, Transport phenomena

Abstract

Experiments to study inward heat transport phenomena have been performed in the Tore Supra tokamak with off-axis electron cyclotron resonance heating (ECRH). Both power balance and perturbation transport analysis have been done for low-frequency (1 Hz) ECRH modulation experiments. Heat diffusivity and heat pinch have been separately determined by fitting the experimental data of the amplitude and phase of the Fourier transform of the modulated temperature with a linear transport model including convection term. Comparison with the critical gradient model has shown that the heat pinch previously obtained could include a pseudo-pinch due to the non-linearity of the diffusivity and an additional non-diffusive heat pinch. The pinch effect is reduced for higher densities.

Published

2012

16. Experimental evidence of the non-local response of transport to peripheral perturbations

Author

B.B. Feng, X.L. Huang, Y. Zhou, X.M. Song, Xuantong Ding, J. Zhou, Lianghua Yao, H. J. Sun, Zhongbing Shi, Patrick Diamond, and Chengyuan Chen

Subjects

Physics, Nuclear and High Energy Physics, Tokamak, Turbulence, Perturbation (astronomy), Mechanics, Core temperature, Condensed Matter Physics, Non local, law.invention, law, Supersonic speed, Atomic physics, Molecular beam, Rapid response

Abstract

Qualitatively novel results on non-locality phenomena in perturbative transport experiments are reported. Here, non-locality means a rapid response in the core follows an edge perturbation on a time scale far shorter than any standard approximation to the global, diffusive model confinement time. Sequential firing of supersonic molecular beam injection on the HL-2A tokamak sustained the increase in the core temperature in response to the edge perturbation. O-mode reflectometers are introduced to measure density fluctuations and show that the central turbulence is suppressed during nonlocallity, suggesting that the interpretation of the phenomenon due to the formation of an ‘ITB-like’ structure is plausible. ECH switch-off experiments on the HL-2A tokamak demonstrated that the non-local response is sensitive to the deposition location. Taken together, these results suggest that non-locality phenomena have several aspects in common which can be linked to certain simple, generic elements of tokamak turbulence physics.

Published

2011

17. Experiment of non-local effect with SMBI on HL-2A

Author

Xuantong Ding, Lianghua Yao, Beibin Feng, Qingwei Yang, Xuru Duan, H. J. Sun, and Z. T. Liu

Subjects

Materials science, Tokamak, Bolometer, Radiation, Condensed Matter Physics, Non local, Electron transport chain, law.invention, Nuclear Energy and Engineering, law, Supersonic speed, Atomic physics, Transport phenomena, Molecular beam

Abstract

Non-local transport phenomena induced by supersonic molecular beam injection (SMBI) have been observed for the first time in the HL-2A tokamak in low density discharges. For low densities (less than 2.0 × 1019 m−3), besides the similarities with the phenomena induced by other methods in various tokamaks, the results on HL-2A show some experimental progress in this effect: the duration of the core Te rise induced by SMBI in HL-2A could be prolonged by changing the conditions of SMBI; both the bolometer radiation and the Hα emission decrease when the non-local effect appears in low density. A repetitive non-local effect can be induced by periodical SMBs. Experimental and calculation results suggest that an electron transport barrier is formed at the position outside the q = 1 surface when the non-local phenomena appear.

Published

2010

18. Present Progress of Plasma Transport Study on HL-2A

Author

L.H. Yao, Hongjuan Sun, J. Rao, Xuantong Ding, B.B. Feng, Yi Liu, Xuru Duan, Jiaqi Dong, Weiwen Xiao, L.W. Yan, Hl A team, X.L. Zou, Qingwei Yang, Yan Zhou, and Z. T. Liu

Subjects

Microwave reflectometry, Tokamak, Materials science, law, Turbulence, Supersonic speed, Plasma, Atomic physics, Condensed Matter Physics, Ohmic contact, Particle transport, Molecular beam, law.invention

Abstract

The recent experiments of HL-2A tokamak have been focused on studying the physics of turbulence and transport. A spontaneous particle transport barrier has been observed in Ohmic discharges without any external momentum input. The barrier was evidenced by density perturbation study using modulated supersonic molecular beam injection (SMBI) and microwave reflectometry. The new features of the non-local transport effect induced with SMBI have been analyzed. The suppression of m/n = 2/1 tearing modes may be sustained by ECRH modulation at a frequency about 10 Hz. Continuous confinement improvement was observed after the mode suppression.

Published

2010

19. A method of particle transport study using supersonic molecular beam injection and microwave reflectometry on HL-2A tokamak

Author

Xuantong Ding, Jiaqi Dong, Y. D. Gao, Qingwei Yang, Xuru Duan, Yi Liu, Shaodong Song, Xianming Song, B. B. Feng, L. H. Yao, W. W. Xiao, Yong Liu, X. L. Zou, Z. T. Liu, C. H. Pan, and Longwen Yan

Subjects

Materials science, Tokamak, business.industry, Perturbation (astronomy), Electromagnetic radiation, law.invention, symbols.namesake, Optics, Amplitude, Fourier transform, law, symbols, Supersonic speed, Atomic physics, business, Instrumentation, Molecular beam, Microwave

Abstract

A method of the particle transport study using supersonic molecular beam injection (SMBI) and microwave reflectometry is reported in this paper. Experimental results confirm that pulsed SMBI is a good perturbation source with deeper penetration and better localization than the standard gas puffing. The local density modulation is induced using the pulsed SMBI and the perturbation density is measured by the microwave reflectometry. Using Fourier transform analysis for the local density perturbation, radial profiles of the amplitude and phase of the density modulation can be obtained. The experimental results in HL-2A show that the particle injected by SMBI is located at about r/a=0.65-0.75. The position of the main particle source can be determined through three aspects: the minimum of the phase of the first harmonic of the Fourier transform of the modulated density measured by microwave reflectometry; the H(a) intensity profile and the local density increase ratio. The maximum of the amplitude of the first harmonic shifts often inward relative to the particle source location, which indicates clearly there is an inward particle pinch in this area. Good agreement has been found between the experimental results and the simulation using analytical transport model. The particle diffusivity D and the particle convection velocity V have been obtained by doing this simulation. The sensitivity in the transport coefficients of the amplitude and the phase of the density modulation has been discussed.

Published

2010

20. Novel design for zonal flow probe arrays in the HL-2A tokamak

Author

W.Y. Hong, Xuantong Ding, D. L. Yu, Jun Qian, Kaijun Zhao, Jun Cheng, Zhengyu Xu, Jiaqi Dong, Y. Huang, Cuiwen Luo, Qingwei Yang, and Longwen Yan

Subjects

Physics, Tokamak, Toroid, Geodesic, Plane (geometry), Zonal flow (plasma), Plasma, law.invention, symbols.namesake, law, symbols, Langmuir probe, Wave vector, Atomic physics, Instrumentation

Abstract

A novel design of three-step Langmuir probe (TSLP) array has been developed for zonal flow (ZF) studies in the HL-2A tokamak. Three TSLP arrays are used to determine three-dimensional (3D) features of the ZFs. Two TSLP arrays are located in the same poloidal plane at a 6.5cm separation, while the third TSLP array is separated toroidally by 80cm. A fourth TSLP array driven by pneumatically reciprocating system is applied for boundary parameter profile measurements within 8cm. The TSLP structure is described in detail. The measured 3D properties of the geodesic acoustic mode (GAM) ZFs are described and the poloidal and toroidal mode numbers (m

Published

2006