G.C. Guo scite author profile

G.C. Guo

5Publications

103Citation Statements Received

32Citation Statements Given

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139

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Affiliations

Southwestern Institute of Physics

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Observation of internal kink instability purely driven by suprathermal electrons in the HL-1M tokamak

Ding

Liu

Guo³

et al. 2002

Nucl. Fusion

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Strong m = 1 MHD activities are observed in the HL-1M tokamak during off-axis electron cyclotron resonance heating (ECRH) when the cyclotron resonance location is placed just outside the q = 1 surface at the high-magnetic-field side of the magnetic surface. Addition of lower-hybrid waves to ECRH significantly enhances the MHD excitation, but lower-hybrid waves alone cannot excite or sustain the mode. This result is a clear demonstration of the suprathermal trapped electron effect on the instability because of the absence of energetic ions in the plasma.

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Plasma behaviour with molecular beam injection in the HL-1M tokamak

et al. 1998

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A new method of gas fuelling has been introduced in the HL-1M tokamak. The method consists of a pulsed high speed molecular beam formed by a Laval type nozzle. The velocity of the well collimated hydrogen beam is about 500 m/s. About 6 × 10 19 molecules pass through the nozzle and into the vacuum chamber in each pulse. A series of helium pulses was injected into the HL-1M low density (ne = 4 × 10 18 m −3 ) hydrogen plasma. With penetration depth up to 12 cm, the ramp-up rate of the electron density, dne/dt, was as high as 3.1 × 10 20 m −3 • s −1 at steady state, and the resulting plasma density reached ne = 5.6 × 10 19 m −3 . The profile peaking factor of the electron density, Qn = ne(0)/ ne of about 100 ms after helium molecular beam injection (MBI) reached a maximum value of more than 1.51. The energy confinement time τE measured by diamagnetism is 26 ms, which is over 30% longer than that of the gas puffing (GP) results under the same operational conditions. The improvement of τE and increase of Qn for MBI were comparable to those of small pellet injection (PI) in HL-1M, as well as those of slow PI in ASDEX (Kaufmann, M., et al., Nucl. Fusion 28 (1988) 827). It is argued that the peaked density profile induced by the deepened particle injection is a factor essential for the confinement improvement apart from the isotope effect of helium particles, because the density peaking factor Qn is normally less than 1.4 for GP plasma in HL-1M. The particle confinement time with MBI increased sixfold in comparison with that before injection.

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Edge plasma phenomena of the low density plasma to high density transition in the HL-1 tokamak

Yang

Lianghua

Zheng

et al. 1992

Journal of Nuclear Materials

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Pellet and Molecular Beam Injection Fueling on the HL-1M Tokamak

Zhenggui

et al. 2003

Fusion Science and Technology

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Effect of suprathermal electrons on central plasma relaxation oscillations during localized electron cyclotron heating on the HL-1M Tokamak

et al. 2002

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G.C. Guo

Observation of internal kink instability purely driven by suprathermal electrons in the HL-1M tokamak

Plasma behaviour with molecular beam injection in the HL-1M tokamak

Edge plasma phenomena of the low density plasma to high density transition in the HL-1 tokamak

Pellet and Molecular Beam Injection Fueling on the HL-1M Tokamak

Effect of suprathermal electrons on central plasma relaxation oscillations during localized electron cyclotron heating on the HL-1M Tokamak

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