Your search keyword '"D.L. Yu"' showing total 17 results

1. Neural Network Parameter Adaptation for a Fuel Injection Control System.

Author

Shiwei Wang and D.L. Yu

Published

2006

2. An Application of Second-Order Sliding Mode Control for IC Engine Fuel Injection.

Author

Shiwei Wang and D.L. Yu

Published

2006

3. Resonant interaction of tearing modes with energetic-ions resulting in fishbone activities on HL-2A.

Author

W. Chen, X.L. Zhu, F. Wang, M. Jiang, X.Q. Ji, Z.Y. Qiu, Z.B. Shi, D.L. Yu, Y.G. Li, L.M. Yu, P.W. Shi, X.T. Ding, M. Xu, and Z.X. Wang

Subjects

TOROIDAL plasma, PARTICLE acceleration

Abstract

The resonant interaction between energetic-particles and tearing mode is an unresolved physics issue at present. It is found for the first time in tokamaks that an unstable tearing mode with slowly rotating m/n  =  2/1 helicity, where m/n represent poloidal/toroidal mode-numbers, interacts with energetic-ions and results in amplitude-bursting/frequency-chirping fishbone-like activities. Nonlinear hybrid kinetic-MHD simulations with M3D-K code prove that the co-passing energetic-ions are responsible for the drive of tearing modes, and the wave-particle resonance condition is satisfied at , where , and are the toroidal, poloidal angular frequencies of energetic-ions and the mode frequency respectively. These findings can help the understanding of tearing mode induced energetic-particle loss and particle acceleration during the tearing mode reconnection in laboratory and space plasmas. [ABSTRACT FROM AUTHOR]

Published

2019

4. Beta induced Alfvén eigenmode driven by energetic ions on the HL-2A tokamak.

Author

P.W. Shi, W. Chen, Z.B. Shi, X.R. Duan, Z.C. Yang, R.R. Ma, W.L. Zhong, M. Jiang, L.M. Yu, A.S. Liang, J. Wen, D.L. Yu, Y. Liu, and Q.W. Yang

Subjects

DISPERSION relations, ELECTRON density, IONS, SOFT X rays, REFLECTOMETER, MICROWAVES

Abstract

Research on beta induced Alfvén eigenmodes (BAEs) driven by energetic ions has been carried out on the HL-2A tokamak. The BAEs can be observed in the cases of being beyond or below unity. The mode frequencies are around 60–95 kHz. The radial mode structures have been detected by the multi-channel microwave reflectometer and soft x-ray arrays. The results suggest that the BAEs are highly localized at the normalized radius of –0.26. Theoretical analyses based on the general fishbone-like dispersion relation and Alfvén mode code support the experimental measurements in both mode frequencies and locations. The BAEs are found to be excited more easily in low electron density discharges. The coexistence of BAEs and reversed shear Alfvén eigenmodes enables the estimation of directly from experiments. [ABSTRACT FROM AUTHOR]

Published

2019

5. Observation of a beam-driven low-frequency mode in Heliotron J.

Author

L.G. Zang, S. Yamamoto, D.A. Spong, K. Nagasaki, S. Ohshima, S. Kobayashi, T. Minami, X.X. Lu, N. Nishino, S. Kado, P. Adulsiriswad, H. Okada, N. Kenmochi, S. Inagaki, J.X. Zhu, G.M. Weir, T. Mizuuchi, S. Konoshima, A. Ishizawa, and D.L. Yu

Subjects

NEUTRAL beams, DOPPLER effect, ROTATIONAL motion

Abstract

A low-frequency electromagnetic mode (LF-mode) has been observed in a stellarator/heliotron device, Heliotron J. The LF-mode is observed only in neutral beam heated plasmas with a co-current, which increases the rotational transform. The observed LF-mode peaks at rho  =  0.86–0.91, where rho  =  r/a is the normalized minor radius. The LF-mode propagates in the ion diamagnetic drift direction, and the poloidal mode number is m ~ 6–8, determined with a combination of Mirnov coil arrays and 2D fast camera measurement. A high m number induces significant Doppler shift from the background ion flow. The frequency is corrected with both E  ×  B rotation and the ion diamagnetic flow. The corrected frequency is almost consistent with the beta-induced Alfvén eigenmode gap evaluated with the STELLGAP code, although very close to the accumulation point. The mode could also be a global Alfvén eigenmode. [ABSTRACT FROM AUTHOR]

Published

2019

6. Kinetic electromagnetic instabilities in an ITB plasma with weak magnetic shear.

Author

W. Chen, D.l. Yu, R.r. Ma, P.w. Shi, Y.y. Li, Z.b. Shi, H.r. Du, X.q. Ji, M. Jiang, L.m. Yu, B.s. Yuan, Y.g. Li, Z.c. Yang, W.l. Zhong, Z.y. Qiu, X.t. Ding, J.q. Dong, Z.x. Wang, H.l. Wei, and J.y. Cao

Subjects

ELECTROMAGNETISM, PLASMA devices, SOLAR energetic particles, IONS, TEMPERATURE

Abstract

Kinetic Alfvén and pressure gradient driven instabilities are very common in magnetized plasmas, both in space and the laboratory. These instabilities will be easily excited by energetic particles (EPs) and/or pressure gradients in present-day fusion and future burning plasmas. This will not only cause the loss and redistribution of the EPs, but also affect plasma confinement and transport. Alfvénic ion temperature gradient (AITG) instabilities with the frequency and the toroidal mode numbers are found to be unstable in NBI internal transport barrier plasmas with weak shear and low pressure gradients, where and are the frequencies of the beta- and toroidicity-induced Alfvén eigenmodes, respectively. The measured results are consistent with the general fishbone-like dispersion relation and kinetic ballooning mode equation, and the modes become more unstable the smaller the magnetic shear is in low pressure gradient regions. The interaction between AITG activity and EPs also needs to be investigated with greater attention in fusion plasmas, such as ITER (Tomabechi and The ITER Team 1991 Nucl. Fusion31 1135), since these fluctuations can be enhanced by weak magnetic shear and EPs. [ABSTRACT FROM AUTHOR]

Published

2018

7. Control of edge localized modes by pedestal deposited impurity in the HL-2A tokamak.

Author

Y.P. Zhang, D. Mazon, X.L. Zou, W.L. Zhong, J.M. Gao, K. Zhang, P. Sun, C.F. Dong, Z.Y. Cui, Yi Liu, Z.B. Shi, D.L. Yu, J. Cheng, M. Jiang, J.Q. Xu, M. Isobe, G.L. Xiao, W. Chen, S.D. Song, and X.Y. Bai

Subjects

TOKAMAKS, LOCALIZED modes, LASER blow-off plasmas, TURBULENCE, ELECTRON density

Abstract

Effect of the pedestal deposited impurity on the edge-localized mode (ELM) behaviour has been observed and intensively investigated in the HL-2A tokamak. Impurities have been externally seeded by a newly developed laser blow-off (LBO) system. Both mitigation and suppression of ELMs have been realized by LBO-seeded impurity. Measurements have shown that the LBO-seeded impurity particles are mainly deposited in the pedestal region. During the ELM mitigation phase, the pedestal density fluctuation is significantly increased, indicating that the ELM mitigation may be achieved by the enhancement of the pedestal transport. The transition from ELM mitigation to ELM suppression was triggered when the number of the LBO-seeded impurity exceeds a threshold value. During the ELM suppression phase, a harmonic coherent mode (HCM) is excited by the LBO-seeded impurity, and the pedestal density fluctuation is significantly decreased, the electron density is continuously increased, implying that HCM may reduce the pedestal turbulence, suppress ELMs, increase the pedestal pressure, thus extending the Peeling–Ballooning instability limit. It has been found that the occurance of the ELM mitigation and ELM suppression closely depends on the LBO laser spot diameter. [ABSTRACT FROM AUTHOR]

Published

2018

8. Influence of m / n = 2/1 magnetic islands on perpendicular flows and turbulence in HL-2A Ohmic plasmas.

Author

M. Jiang, W.l. Zhong, Y. Xu, Z.b. Shi, W. Chen, X.q. Ji, X.t. Ding, Z.c. Yang, P.w. Shi, A.s. Liang, J. Wen, J. Q. Li, Y. Zhou, Y.g. Li, D.l. Yu, Y. Liu, Q.w. Yang, and Team, The Hl-2a

Subjects

FLUID flow, TOKAMAKS, SCATTERING (Physics), REFLECTOMETER, ELECTRON emission

Abstract

The radial profiles of perpendicular flows in the presence of the magnetic island were firstly measured in the HL-2A tokamak by hopping the work frequency of the Doppler backward scattering reflectometer system along with a two-dimensional electron cyclotron emission imaging diagnostic identifying the island locations. It has been observed that across the O-point cut the perpendicular flow is quite small at the center of the island and strongly enhanced around the boundary of the island, resulting in a large increase of the flow shear in the outer half island, while across the X-point cut the flow is almost flat in the whole island region. Meanwhile it was found that the density fluctuations are generally weakened inside the island. The results indicate that both the perpendicular flow and the density fluctuation level are modulated by the naturally rotating tearing mode near the island boundary. The cross-correlation between the perpendicular flows and the oscillating electron temperature further reveals that the modulation of the perpendicular flow occurs mainly inside and in the vicinity of the island. [ABSTRACT FROM AUTHOR]

Published

2018

9. Stabilization of ion fishbone activities by electron cyclotron resonance heating in a toroidal plasma.

Author

W. Chen, L.m. Yu, P.w. Shi, R. Ma, X.q. Ji, M. Jiang, X.l. Zhu, Z.b. Shi, D.l. Yu, B.s. Yuan, Y.g. Li, Z.c. Yang, J.y. Cao, S.d. Song, W.l. Zhong, H.d. He, J.q. Dong, X.t. Ding, L.w. Yan, and Yi. Liu

Subjects

FISHBONE instability, PLASMA physics, ELECTRONS, CYCLOTRON resonance, TOROIDAL plasma

Abstract

We report an experimental result on the stabilization of the energetic–ion driven internal kink mode (ion fishbone) by electron cyclotron resonance heating (ECRH), observed for the first time in a toroidal plasma. The mode asserts itself a resistive branch close to the marginal stability point. The resulting fishbone mode depends not only on the injected power but also on the radial deposition location of ECRH, and the instability can be completely suppressed when the injected ECRH power exceeds certain threshold. Analysis by the fishbone dispersion relation, including the resistive effect, suggests that the magnetic Reynolds number plays a key role in the mode stabilization—it weakens the mode growth-rate and enhances the critical energetic–ion beta without changing the energetic–ion population. This ion fishbone stabilization mechanism can be important for future devices such as ITER, which has significant ECRH capability. [ABSTRACT FROM AUTHOR]

Published

2018

10. Experimental observation of multi-scale interactions among kink /tearing modes and high-frequency fluctuations in the HL-2A core NBI plasmas.

Author

W. Chen, M. Jiang, Y. Xu, P.W. Shi, L.M. Yu, X.T. Ding, Z.B. Shi, X.Q. Ji, D.L. Yu, Y.G. Li, Z.C. Yang, W.L. Zhong, Z.Y. Qiu, J.Q. Li, J.Q. Dong, Q.W. Yang, Yi. Liu, L.W. Yan, M. Xu, and X.R. Duan

Subjects

KINK instability, ELECTROMAGNETIC devices, PLASMA transport processes, ELECTRON density, HEAT flux

Abstract

Multi-scale interactions have been observed recently in the HL-2A core NBI plasmas, including the synchronous coupling between kink mode and tearing mode, nonlinear couplings of TAE/BAE and TM near surface, AITG/KBM/BAE and kink mode near surface, and between kink mode and high-frequency turbulence. Experimental results suggest that several couplings can exist simultaneously, Alfvenic fluctuations have an important contribution to the high-frequency turbulence spectra, and the couplings reveal the electromagnetic character. Multi-scale interactions via the nonlinear modulation process maybe enhance plasma transport and trigger sawtooth-crash onset. [ABSTRACT FROM AUTHOR]

Published

2017

11. Mesoscale electric fluctuations interacting with zonal flows, magnetic fluctuations and turbulence.

Author

K.J. Zhao, Y. Nagashima, P.H. Diamond, J.Q. Dong, K. Itoh, S.-I. Itoh, L.W. Yan, J. Cheng, A. Fujisawa, S. Inagaki, Y. Kosuga, M. Sasaki, Z.H. Huang, D.L. Yu, Q. Li, X.Q. Ji, X.M. Song, Y. Huang, Yi. Liu, and Q.W. Yang

Subjects

MESOSCALE eddies, PLASMA boundary layers, PLASMA physics, PLASMA-wall interactions, TOKAMAKS

Abstract

New mesoscale electric fluctuations (MSEFs) are identified in the edge plasmas of the HL-2A tokamak using multiple Langmuir probe arrays. The MSEFs, resulting from the synchronization and having components of dominant geodesic acoustic mode (GAM) and m/n  =  6/2 potential fluctuations, are found at the same frequency as that of the magnetic fluctuations of m/n  =  6/2 (m and n are poloidal and toroidal mode numbers, respectively). The temporal evolutions of the MSEFs and the magnetic fluctuations clearly show the frequency entrainment and the phase lock between the GAM and the m/n  =  6/2 magnetic fluctuations. The results indicate that GAMs and magnetic fluctuations can transfer energy through nonlinear synchronization. The nonlinear coupling analyses show that the MSEFs couple to turbulence and low frequency zonal flows (LFZFs). This suggests that the MSEFs may contribute to the LFZF formation, reduction of turbulence level, and thus confinement regime transitions. The analysis of the envelope modulation demonstrates that both the MSEFs and the LFZFs modulate the turbulence while the MSEFs are modulated by the LFZFs. [ABSTRACT FROM AUTHOR]

Published

2017

12. Important role of pedestal ion temperature in the ELM mitigation by supersonic molecular beam injection.

Author

Q. Ma, D.L. Yu, C.Y. Chen, Y.L. Wei, W.L. Zhong, X.L. Zou, H.Y. Zuo, J.L. Du, L. Liu, C.F. Dong, Z.B. Shi, K.J. Zhao, B.B. Feng, Y. Zhou, Z.H. Wang, M. Xu, Yi Liu, L.W. Yan, Q.W. Yang, and L.H. Yao

Subjects

EDGE-localized modes (Plasma instabilities), ION temperature, SUPERSONIC aerodynamics, MOLECULAR beams, ELECTRON density, ELECTRIC fields

Abstract

Edge localized mode (ELM) is successfully mitigated by helium and deuterium supersonic molecular beam injections (SMBIs) on HL-2A. During the ELM mitigation by SMBIs, gradients of ion temperature (Ti) and electron density are softened in the pedestal. It has been observed that the averaged gradient of the Ti decreases around 44% and the well depth of radial electric field (Er) is reduced by the SMBI during ELM mitigation. Furthermore, at least 20% decrements of Ti have to be attained to achieve a noticeable increase (decrease) of the ELM frequency (amplitude). In addition, the duration of ELM mitigation with helium SMBI is much longer than that with deuterium, likely due to the higher level of recycling neutral gas compared to that of deuterium; in the case of ELM mitigation by helium SMBI, the recovery duration of the density gradient is much shorter (10–20 ms) than that of Ti (up to 40 ms or longer), indicating the importance of the Ti in the ELM mitigation by SMBI. Finally, it has been observed that the Ti is reduced before the beginning of the ELM mitigation, suggesting that the mechanism of the ELM mitigation by SMBI is closely related to the cooling effect. [ABSTRACT FROM AUTHOR]

Published

2016

13. Ion internal transport barrier in neutral beam heated plasmas on HL-2A.

Author

D.L. Yu, Y.L. Wei, L. Liu, J.Q. Dong, K. Ida, K. Itoh, A.P. Sun, J.Y. Cao, Z.B. Shi, Z.X. Wang, Y. Xiao, B.S. Yuan, H.R. Du, X.X. He, W.J. Chen, Q. Ma, S.-I. Itoh, K.J. Zhao, Y. Zhou, and J. Wang

Subjects

IONS, NEUTRAL beams, PLASMA beam injection heating, TOKAMAKS, FUSION reactors

Abstract

Ion internal transport barriers (iITBs) are first observed in neutral beam injection (NBI) heated plasmas at the HL-2A tokamak. The position of the barrier foot, in the stationary state, coincides with the q  =  1 surface within its uncertainty of measurement. iITBs can develop more easily at the beginning of NBI heating. Also, iITBs are unstable for the sawtooth plasma. Simulations reveal that the thermal diffusivity of ions (χi) inside the barrier can be as low as the neoclassical level. It is observed that the flow shear in the stationary iITB state reaches the level required for suppressing the ion temperature gradient mode instability, which indicates the important role of flow shear in sustaining the iITB. [ABSTRACT FROM AUTHOR]

Published

2016

14. Core-localized Alfvénic modes driven by energetic ions in HL-2A NBI plasmas with weak magnetic shears.

Author

W. Chen, L.M. Yu, X.T. Ding, H.S. Xie, Z.B. Shi, X.Q. Ji, D.L. Yu, Y.P. Zhang, P.W. Shi, Y.G. Li, B.B. Feng, M. Jiang, W.L. Zhong, J.Y. Cao, X.M. Song, M. Xu, Y.H. Xu, L.W. Yan, Yi Liu, and Q.W. Yang

Subjects

PLASMA Alfven waves, PLASMA beam injection heating, TOROIDAL plasma, PARAMETER estimation, SHEARING force

Abstract

Recent experimental results that are associated with the core-localized (i.e. normalized radius ) Alfvénic modes in HL-2A neutral beam injection (NBI) plasmas with weak magnetic shears are reported. In the different plasma parameter regions, the energetic ions produced by the NBI drive multiple Alfvénic instabilities, such as the toroidal Alfvén eigenmode (TAE), beta-induced Alfvén eigenmode, reversed shear Alfvén eigenmode (RSAE) and fishbone and energetic particle mode (EPM). Here, we focus on the high-frequency RSAE (HFRSAE) and resonant kinetic ballooning mode (rKBM). A group of downward-sweeping frequency coherent modes (HFRSAEs) with 100  <  f  <  500 kHz and n  =  3–7 are often observed with an increase in the edge safety factor, qa. Their measured frequency is more than that of the TAEs, and . The analysis suggests that these modes localize inside the high-order Alfvén eigenmode (AE) gap of the Alfvénic continuum, and their eigenfrequency and eigenfunction depend on the and q-profile. When the core plasma density is more than m−3 and the impurity or supersonic molecular beam enters the bulk plasma, the profiles of the plasma density/pressure peak, and the magnetic shear is weak or negative. In this case, a group of multi-harmonic coherent modes (rKBMs) with 30  <  f  <  150 kHz and n  =  2–9 are observed through multiple diagnostic techniques, and , where is the diamagnetic drift frequency of the thermal ion. It is found that the HFRSAEs can transit into the rKBMs when the density profile suddenly peaks. Neutron monitoring outside the vacuum chamber demonstrates that the HFRSAE and rKBM both degrade the confinement of the energetic ions. The rKBM instabilities also affect the bulk plasma performance. [ABSTRACT FROM AUTHOR]

Published

2016

15. The effect of beta-induced Alfvén eigenmode on L–I–H transitions in the HL-2A tokamak.

Author

L.W. Yan, J. Cheng, J.Q. Dong, K. Itoh, K.J. Zhao, Z.H. Huang, X.Q. Ji, D.L. Yu, L. Nie, M. Jiang, C.H. Liu, X.M. Song, B.S. Yuan, Yi Liu, Q.W. Yang, X.T. Ding, S.-I. Itoh, X.R. Duan, Y. Liu, and Team, the HL-2A

Subjects

PLASMA Alfven waves, TOKAMAKS, TURBULENCE, ELECTRIC fields, ELECTROSTATIC accelerators, QUANTUM perturbations, LANGMUIR probes

Abstract

The characteristics of beta-induced Alfvén eigenmode (BAE) at L–I–H transitions have been investigated in the HL-2A experiments for the first time. It is found that a BAE of fBAE ∼ 13.6 kHz coexists with the limit cycle oscillations of fLCO ∼ 2.6 kHz and both disappear after the I–H transition in the discharges with L–I–H transitions. It is also found that the ambient turbulence is modulated by the radial electric field at the BAE frequency and that the level of density fluctuation gradually drops in L–I–H transitions, but it remains invariant in L–I–L ones. These results suggest a possible correlation between the BAE and the L–I–H transitions. The sudden disappearance of the BAE in L–I and I–H transitions has the similar effect of sawtooth crashes on triggering L–I–H transitions in the HL-2 A tokamak. [ABSTRACT FROM AUTHOR]

Published

2015

16. Low–intermediate–high confinement transition in HL-2A tokamak plasmas.

Author

J. Cheng, J.Q. Dong, K. Itoh, L.W. Yan, W.Y. Hong, K.J. Zhao, Z.H. Huang, X.Q. Ji, W.L. Zhong, D.L. Yu, S.-I. Itoh, L. Nie, X.M. Song, Q.W. Yang, X.T. Ding, X.L. Zou, X.R. Duan, Yong Liu, and Team, the HL-2A

Subjects

NONLINEAR optical polymers, LONG distance telephone service, SPIRAL antennas, FLUCTUATIONS (Physics), TOKAMAKS -- Design & construction

Abstract

The dynamics of low–intermediate–high confinement transitions was studied using a four-step Langmuir probe in the HL-2A edge plasma. Two types (dubbed type-Y and type-J) of limit cycle oscillations (LCOs) with opposite temporal ordering between the radial electric field and turbulence were first observed. In type-Y, the turbulence grows first, followed by the localized electric field. In contrast, the electric field leads turbulence in type-J. In addition, the Reynolds stress gradient is found not enough to drive the LCO flow and the three-wave nonlinear coupling is weak there. The continuously increasing amplitude of magnetic fluctuations and the significant correlation between the magnetic fluctuation and the electron pressure gradient indicate an important role of diamagnetic drifts in the L–H transition. Mode numbers of magnetic fluctuations in the LCO frequency are identified to be m/n = 1/0. [ABSTRACT FROM AUTHOR]

Published

2014

17. Destabilization of reversed shear Alfvén eigenmodes driven by energetic ions during NBI in HL-2A plasmas with qmin ∼ 1.

Author

W. Chen, Yi. Liu, X.T. Ding, L.M. Yu, X.Q. Ji, J.X. Li, Y.G. Li, D.L. Yu, Z.B. Shi, X.M. Song, J.Y. Cao, S.D. Song, Y.B. Dong, W.L. Zhong, M. Jiang, Z.Y. Cui, Y. Huang, Y. Zhou, J.Q. Dong, and M. Xu

Subjects

PLASMA beam injection heating, IONS, FREQUENCIES of oscillating systems, FUSION reactors, TOKAMAKS

Abstract

Two groups of frequency sweeping modes are observed and interpreted in the HL-2 A plasmas with qmin ∼ 1. The tokamak simulation code calculations indicate the presence of a reversed shear q-profile during the existence of these modes. The mode frequencies lie in between TAE and BAE frequencies, i.e. ωBAE < ω < ωTAE, and these modes are highly localized near qmin, i.e. r/a ∼ 0.25. A group of modes characterized by down-sweeping frequency with qmin decrease due to qmin > 1 and nqmin − m > 0, and another group of modes characterized by up-sweeping frequency with qmin drop, owing to qmin < 1 and nqmin − m < 0 before sawtooth crash. The kinetic Alfvén eigenmode code analysis supports that the down-sweeping modes are kinetic reverse shear Alfvén eigenmodes (KRSAEs), and the up-sweeping modes are RSAEs, which exist in the ideal or kinetic MHD limit. In addition, the down- and up-sweeping RSAEs both have fast nonlinear frequency behaviour in the process of slow frequency sweeping, i.e. producing pitch-fork phenomena. These studies provide valuable constraint conditions for the q-profile measurements. [ABSTRACT FROM AUTHOR]

Published

2014