Y.B. Dong scite author profile

The features of ion and electron fishbone instabilities have been investigated during neutral beam injection (NBI) and electron cyclotron resonance heating (ECRH) on HL-2A. Some new phenomena, such as frequency jumps and V-font-style sweeping, have been presented in the paper. Three kinds of i-fishbones, including hybrid sawtoothfishbone (sawbone), run-on fishbone and classical fishbone, have been identified during NBI. During high power (P ECRH > 0.7 MW) ECRH, the experimental results indicate that the e-fishbone frequencies are higher than those during low power ECRH, and are provided with up-and down-chirping behaviours, and sometimes also with V-font-style sweeping. The periodic mode frequency jumps have also been detected by a soft x-ray array. It is possible to correlate these phenomena with the redistribution of energetic electrons.

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Destabilization of beta-induced Alfvén eigenmodes in the HL-2A tokamak

Chen

Ding²,

Liu

et al. 2011

Nucl. Fusion

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Beta-induced Alfvén eigenmode (BAE) during a strong tearing mode activity (termed as m-BAE) has been observed and investigated in HL-2A. BAE excited by energetic electrons (termed as e-BAE) has been identified both in the Ohmic and ECRH plasma. The hard x-ray spectrum detected by cadmium telluride and the non-thermal radiation measured by electron cyclotron emission are used to analyse the behaviour of the energetic electrons. Experimental results show that the e-BAE is related not only to the populations of the energetic electrons, but also their energy distribution. An interesting result about the BAEs modulated by a supersonic molecular beam and gas puffing is presented. In addition, BAEs during a sawtooth cycle are described in this paper. To assess the identification of the e-BAE and m-BAE, the generalized fishbone-like dispersion relation and magnetic-island-induced BAE dispersion relation are solved near marginal stability, respectively. Compared with experimental results, the calculation analysis shows that the observed frequencies are all close to the theoretical results.

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ELM mitigation by supersonic molecular beam injection into the H-mode pedestal in the HL-2A tokamak

Xiao¹,

Diamond²,

Zou³

et al. 2012

Nucl. Fusion

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Density profiles in pedestal region (H-mode) are measured in HL-2A and the characteristics of the density pedestal are described. Cold particle deposition by Supersonic Molecular Beam Injection (SMBI) within the pedestal is verified. ELM mitigation by SMBI into the H-mode pedestal is demonstrated and the relevant physics is elucidated. The sensitivity of the effect to SMBI pressure and duration are studied. Following SMBI, the ELM frequency increases and ELM amplitude decreases for a finite duration period. Increases in ELM frequency of SMBI ELM f / 0 ELM f 2-3.5 are achieved. This experiment argues that the ELM mitigation results from an increase in Page 2 higher frequency fluctuations and transport events in the pedestal, which are caused by SMBI. These inhibit the occurrence of large transport events which span the entire pedestal width. The observed change in the density pedestal profiles and edge particle flux spectrum with and without SMBI supports this interpretation. An analysis of the experiment and a model shows that ELMs can be mitigated by SMBI with shallow particle penetration into the pedestal.

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Destabilization of the internal kink mode by energetic electrons on the HL-2A tokamak

Chen¹,

Ding

Liu

et al. 2009

Nucl. Fusion

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Strong burst of the internal kink mode has been observed during ECRH on the HL-2A. It has been experimentally identified that the energetic electrons, which deviate from Maxwell velocity distribution, excite the mode, which was so called electron fishbone (e-fishbone). The energy distribution of the electrons is indirectly measured by a hard X-ray detector (CdTe) with the pulse height analysis (PHA).When the counts of the energetic electrons with 35-70keV increase to a higher level, the mode can be observed obviously. The e-fishbone can be excited during off -axis ECRH deposited both the high field side and low field side. The modes propagate toroidally parallel to the precession velocity of deeply trapped ions which is in the same direction as the plasma current (co-current) and poloidally parallel to the electron diamagnetic drift velocity. In order to further identify with e-fishbone mode, the resonance condition of wave-particle has been investigated. Comparing with experimental results, the calculation analyses show that the mode frequency is close to the precession frequency of the barely trapped electrons (BTEs) or the barely circulating electrons (BCEs) when the magnetic shear is very weak or negative.

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

Chen¹,

Liu³

et al. 2014

Nucl. Fusion

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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.

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Y.B. Dong

Features of ion and electron fishbone instabilities on HL-2A*

Destabilization of beta-induced Alfvén eigenmodes in the HL-2A tokamak

ELM mitigation by supersonic molecular beam injection into the H-mode pedestal in the HL-2A tokamak

Destabilization of the internal kink mode by energetic electrons on the HL-2A tokamak

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

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Y.B. Dong

Features of ion and electron fishbone instabilities on HL-2A*

Destabilization of beta-induced Alfvén eigenmodes in the HL-2A tokamak

ELM mitigation by supersonic molecular beam injection into the H-mode pedestal in the HL-2A tokamak

Destabilization of the internal kink mode by energetic electrons on the HL-2A tokamak

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

Contact Info

Product

Resources

About

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