Ying Luo scite author profile

Combined neutral beam injection and fast wave heating at the fourth and fifth cyclotron harmonics accelerate fast ions in the DIII-D tokamak. Measurements with a nine-channel fast-ion D-alpha (FIDA) diagnostic indicate the formation of a fast-ion tail above the injection energy. Tail formation correlates with enhancement of the d-d neutron rate above the value that is expected in the absence of fast-wave acceleration. FIDA spatial profiles and fast-ion pressure profiles inferred from the equilibrium both indicate that the acceleration is near the magnetic axis for a centrally located resonance layer. The enhancement is largest 8-10 cm beyond the radius where the wave frequency equals the cyclotron harmonic, probably due to a combination of Doppler-shift and orbital effects. The fast-ion distribution function calculated by the CQL3D FokkerPlanck code is fairly consistent with the data.

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Tuning fractional order proportional integral controllers for fractional order systems

Luo

Chen

Wang

et al. 2010

Journal of Process Control

293

176

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A Fractional Order Proportional and Derivative (FOPD) Motion Controller: Tuning Rule and Experiments

Luo

Chen

2010

IEEE Trans. Contr. Syst. Technol.

362

156

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Hydrogenic fast-ion diagnostic using Balmer-alpha light

Heidbrink

Burrell

Luo

et al. 2004

Plasma Phys. Control. Fusion

115

153

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Hydrogenic fast-ion populations are common in toroidal magnetic fusion devices, especially in devices with neutral beam injection. As the fast ions orbit around the device and pass through a neutral beam, some fast ions neutralize and emit Balmer-alpha light. The intensity of this emission is weak compared with the signals from the injected neutrals, the warm (halo) neutrals and the cold edge neutrals, but, for a favourable viewing geometry, the emission is Doppler shifted away from these bright interfering signals. Signals from fast ions are detected in the DIII-D tokamak. When the electron density exceeds ∼7×10 19 m −3 , visible bremsstrahlung obscures the fast-ion signal. The intrinsic spatial resolution of the diagnostic is ∼5 cm for 40 keV amu −1 fast ions. The technique is well suited for diagnosis of fast-ion populations in devices with fast-ion energies (∼30 keV amu −1 ), minor radii (∼0.6 m) and plasma densities ( 10 20 m −3 ) that are similar to those of DIII-D.

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Integration of correlations with standard deviations for determining attribute weights in multiple attribute decision making

Wang

Luo

2010

Mathematical and Computer Modelling

300

143

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Fractional order [proportional derivative] controller for a class of fractional order systems

2009

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Ying Luo

On the extent analysis method for fuzzy AHP and its applications

Factors impacting compliance with standard precautions in nursing, China

Measurements of fast-ion acceleration at cyclotron harmonics using Balmer-alpha spectroscopy

Tuning fractional order proportional integral controllers for fractional order systems

A Fractional Order Proportional and Derivative (FOPD) Motion Controller: Tuning Rule and Experiments

Hydrogenic fast-ion diagnostic using Balmer-alpha light

Integration of correlations with standard deviations for determining attribute weights in multiple attribute decision making

Fractional order [proportional derivative] controller for a class of fractional order systems

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