Your search keyword '"Defeng Kong"' showing total 10 results

1. Energetic laser-driven proton beams from near-critical-density double-layer targets under moderate relativistic intensities

Author

Zhusong Mei, Zhuo Pan, Zhipeng Liu, Shirui Xu, Yinren Shou, Pengjie Wang, Zhengxuan Cao, Defeng Kong, Yulan Liang, Ziyang Peng, Tan Song, Xun Chen, Tianqi Xu, Ying Gao, Shiyou Chen, Jiarui Zhao, Yanying Zhao, Xueqing Yan, and Wenjun Ma

Subjects

Condensed Matter Physics

Abstract

Double-layer targets composed of near-critical-density carbon nanotube foams (CNFs) and solid foils have shown their advantages in laser-driven ion acceleration under high relativistic intensity. Here, we report the experimental and numerical results on the laser-accelerated proton beams from such targets under moderate relativistic intensities [Formula: see text]. 40-TW femtosecond laser pulses were used to irradiate CNF-based double-layer targets. Compared to single-layer targets, significant enhancements on the cutoff energy and numbers of ions were observed. It was found that the CNF layer also leads to a larger divergence angle and a more homogeneous spatial distribution profile of the proton beam. Particle-in-cell simulations reveal the reason for the enhanced proton acceleration. It is found that the lateral electric field and the strong magnetic field built by the directly accelerated electrons from the CNF layer contribute to the enlarged divergence angle.

Published

2023

2. High-energy-density plasma in femtosecond-laser-irradiated nanowire-array targets for nuclear reactions

Author

Defeng Kong, Guoqiang Zhang, Yinren Shou, Shirui Xu, Zhusong Mei, Zhengxuan Cao, Zhuo Pan, Pengjie Wang, Guijun Qi, Yao Lou, Zhiguo Ma, Haoyang Lan, Wenzhao Wang, Yunhui Li, Peter Rubovic, Martin Veselsky, Aldo Bonasera, Jiarui Zhao, Yixing Geng, Yanying Zhao, Changbo Fu, Wen Luo, Yugang Ma, Xueqing Yan, and Wenjun Ma

Subjects

Nuclear and High Energy Physics, Nuclear Energy and Engineering, Electrical and Electronic Engineering, Atomic and Molecular Physics, and Optics

Abstract

In this work, the high-energy-density plasmas (HEDP) evolved from joule-class-femtosecond-laser-irradiated nanowire-array (NWA) targets were numerically and experimentally studied. The results of particle-in-cell simulations indicate that ions accelerated in the sheath field around the surfaces of the nanowires are eventually confined in a plasma, contributing most to the high energy densities. The protons emitted from the front surfaces of the NWA targets provide rich information about the interactions that occur. We give the electron and ion energy densities for broad target parameter ranges. The ion energy densities from NWA targets were found to be an order of magnitude higher than those from planar targets, and the volume of the HEDP was several-fold greater. At optimal target parameters, 8% of the laser energy can be converted to confined protons, and this results in ion energy densities at the GJ/cm3 level. In the experiments, the measured energy of the emitted protons reached 4 MeV, and the changes in energy with the NWA’s parameters were found to fit the simulation results well. Experimental measurements of neutrons from 2H(d,n)3He fusion with a yield of (24 ± 18) × 106/J from deuterated polyethylene NWA targets also confirmed these results.

Published

2022

3. Five-channel tunable W-band Doppler backscattering system in the experimental advanced superconducting tokamak

Author

C. Zhou, Z. Y. Liu, Xuefei Feng, Ge Zhuang, Z. X. Liu, Tao Lan, J. X. Ji, Song Zhang, Weihao Liu, Mengyu Wang, H. Li, Liqun Hu, J. Zhang, H.R. Fan, Weixing Ding, J. L. Xie, Tianfu Zhou, Wenzhe Mao, A. D. Liu, Defeng Kong, and Yong Liu

Subjects

010302 applied physics, Physics, Sideband, business.industry, Scattering, Frequency multiplier, Bandwidth (signal processing), 01 natural sciences, 010305 fluids & plasmas, symbols.namesake, Optics, W band, 0103 physical sciences, symbols, Wavenumber, Ray tracing (graphics), business, Instrumentation, Doppler effect

Abstract

A 5-channel Doppler backscattering system has been designed and installed in the Experimental Advanced Superconducting Tokamak (EAST). Through an I/Q-type double sideband modulator and a frequency multiplier, an array of finely spaced (Δf = 400 MHz) frequencies that span 1.6 GHz has been created. The center of the array bandwidth is tunable within the range of 75-97.8 GHz, which covers most of the W band (75-110 GHz). The incident angle can be adjusted from -4° to 12°, and the wavenumber range is 4-15 cm-1 with a wavenumber resolution of Δk/k ≤ 0.35. Ray tracing is used to calculate the scattering location and the scattering wavenumber. This article details the hardware design, the ray tracing, and the preliminary experimental results from EAST plasmas.

Published

2019

4. The role of geodesic acoustic mode on reducing the turbulent transport in the edge plasma of tokamak

Author

Tao Lan, J. L. Xie, Xuru Duan, Longwen Yan, Xiang Gao, K. N. Geng, K. J. Zhao, Defeng Kong, S. B. Zhang, H. L. Zhao, A. D. Liu, H. Li, Jiuyuan Li, Jun Cheng, Rende Chen, Changxuan Yu, T. Zhang, Weihao Liu, and J. Q. Dong

Subjects

Physics, Tokamak, Geodesic, Turbulence, Plasma turbulence, Plasma, Condensed Matter Physics, 01 natural sciences, 010305 fluids & plasmas, Computational physics, law.invention, Amplitude, Physics::Plasma Physics, law, 0103 physical sciences, 010306 general physics, Particle flux, Coherence (physics)

Abstract

Three sets of triple probe arrays (four-tip) are applied to study the transport properties at the edge of a HL-2A tokamak. The Geodesic Acoustic Mode (GAM) exhibits intermittent characteristics during the discharge. The radial particle flux has been studied in different phases corresponding to the variable GAM intensity. The experimental results reveal that the radial particle flux contributed by the ambient turbulence ( 20 kHz – 100 kHz ) has been suppressed by 13% during the GAM bursts, contrasting weak GAM cases. Power of density fluctuations and coherence between density and potential fluctuations contribute to most reduction of the particle flux, while changing the cross phase between the density and potential fluctuations and the suppression of power of potential fluctuations hardly contribute to it. These results suggest that the GAM can regulate the turbulent transport mainly by changing the amplitude of ambient turbulence, rather than the cross phase between density and potential fluctuations.

Published

2018

5. Multi-channel poloidal correlation reflectometry on experimental advanced superconducting tokamak

Author

H.M. Xiang, Canbin Huang, T. Zhang, Defeng Kong, Yuan Gao, Hongyi Qu, Jiale Cai, Xiang Gao, Yumin Wang, F. Wen, Xiuwen Han, K.N. Geng, and Shenjin Zhang

Subjects

010302 applied physics, Physics, business.industry, Dielectric resonator, Plasma, Filter bank, 01 natural sciences, Signal, 010305 fluids & plasmas, Optics, Nuclear magnetic resonance, 0103 physical sciences, Power dividers and directional couplers, Antenna (radio), business, Reflectometry, Instrumentation, V band

Abstract

A new multi-channel poloidal correlation reflectometry is developed at Experimental Advanced Superconducting Tokamak. Eight dielectric resonator oscillators with frequencies of 12.5 GHz, 13.5 GHz, 14.5 GHz, 15 GHz, 15.5 GHz, 16 GHz, 17 GHz, and 18 GHz are used as sources. Signals from the sources are up-converted to V band using active quadruplers and then coupled together. The output waves are launched by one single antenna after passing through a 20 dB directional coupler which can provide the reference signal. Two poloidally separated antennae are installed to receive the reflected waves from plasma. The reference and reflected signals are down-converted by mixing with a quadrupled signal from a phase-locked source with a frequency of 14.2 GHz and the IF signals pass through the filter bank. The resulting signals from the mixers are detected by I/Q demodulators. The setup enables the measurement of density fluctuation at 8 (radial) × 2 (poloidal) spatial points. A coherent mode with an increasing velocity from 50 kHz to 100 kHz is observed by using the system. The mode is located in the steep gradient region of the pedestal.

Published

2016

6. Toward integrated multi-scale pedestal simulations including edge-localized-mode dynamics, evolution of edge-localized-mode cycles, and continuous fluctuations

Author

T. Y. Xia, R. J. Groebner, Amanda Hubbard, Jerry Hughes, Ahmed Diallo, Z. X. Liu, Xueqiao Xu, N. Yan, and Defeng Kong

Subjects

Physics, Coupling, Tokamak, Turbulence, Computer Science::Neural and Evolutionary Computation, Phase (waves), Flux, Mechanics, Condensed Matter Physics, 01 natural sciences, 010305 fluids & plasmas, law.invention, Nonlinear system, Pedestal, Physics::Plasma Physics, law, 0103 physical sciences, Atomic physics, 010306 general physics, Edge-localized mode

Abstract

The high-fidelity BOUT++ two-fluid code suite has demonstrated significant recent progress toward integrated multi-scale simulations of tokamak pedestal, including Edge-Localized-Mode (ELM) dynamics, evolution of ELM cycles, and continuous fluctuations, as observed in experiments. Nonlinear ELM simulations show three stages of an ELM event: (1) a linear growing phase; (2) a fast crash phase; and (3) a slow inward turbulence spreading phase lasting until the core heating flux balances the ELM energy loss and the ELM is terminated. A new coupling/splitting model has been developed to perform simulations of multi-scale ELM dynamics. Simulation tracks five ELM cycles for 10 000 Alfven times for small ELMs. The temporal evolution of the pedestal pressure is similar to that of experimental measurements for the pedestal pressure profile collapses and recovers to a steep gradient during ELM cycles. To validate BOUT++ simulations against experimental data and develop physics understanding of the fluctuation charac...

Published

2016

7. Observations of zonal flows in electrode biasing experiments on the Joint Texas Experimental tokamak

Author

Hailin Zhao, Weixing Ding, Min Xu, Ye Sun, Weihao Liu, Changxuan Yu, Hai Liu, Ge Zhuang, Xuan Sun, Hui Li, Tao Lan, J-Text Team, A. D. Liu, Zhaoquan Chen, Z.J. Wang, J. L. Xie, Defeng Kong, H. G. Shen, and J. Wu

Subjects

Physics, Tokamak, Turbulence, Biasing, Low frequency, Condensed Matter Physics, 01 natural sciences, 010305 fluids & plasmas, law.invention, Computational physics, High-confinement mode, Shear (sheet metal), symbols.namesake, Nuclear magnetic resonance, law, Frequency domain, 0103 physical sciences, symbols, Langmuir probe, Physics::Chemical Physics, 010306 general physics

Abstract

Zonal flows (ZFs) are observed during the electrode biasing (EB) high confinement mode (H-mode) using Langmuir probe arrays on the edge of J-TEXT tokamak. The long-distance correlation characteristics of floating potentials and interactions with turbulence are studied. During positive biasing H-mode, either the geodesic acoustic mode or low frequency ZF increases. Strong suppression of radial transport by ZFs is found in the low frequency region. The components of the radial particle flux without and with EB are compared in the frequency domain. The interaction between ZFs and ambient turbulence is also discussed. The results show that the rate of ZFs' shear is comparable with that of E×B shear, suggesting that ZFs could be the trigger of the biasing H-mode.

Published

2016

8. Radial and poloidal correlation reflectometry on Experimental Advanced Superconducting Tokamak

Author

Xiang Han, Shoubiao Zhang, Jianqing Cai, Yu Gao, Xiang Gao, Tao Zhang, Hao Qu, Yumin Wang, Canbin Huang, F. Wen, and Defeng Kong

Subjects

Physics, Electron density, Nuclear magnetic resonance, Physics::Plasma Physics, Perpendicular, Plasma diagnostics, Plasma, Antenna (radio), Reflectometry, Instrumentation, Computational physics, Magnetic field, V band

Abstract

An X-mode polarized V band (50 GHz-75 GHz) radial and poloidal correlation reflectometry is designed and installed on Experimental Advanced Superconducting Tokamak (EAST). Two frequency synthesizers (12 GHz-19 GHz) are used as sources. Signals from the sources are up-converted to V band using active quadruplers and then coupled together for launching through one single pyramidal antenna. Two poloidally separated antennae are installed to receive the reflected waves from plasma. This reflectometry system can be used for radial and poloidal correlation measurement of the electron density fluctuation. In ohmically heated plasma, the radial correlation length is about 1.5 cm measured by the system. The poloidal correlation analysis provides a means to estimate the fluctuation velocity perpendicular to the main magnetic field. In the present paper, the distance between two poloidal probing points is calculated with ray-tracing code and the propagation time is deduced from cross-phase spectrum. Fluctuation velocity perpendicular to the main magnetic field in the core of ohmically heated plasma is about from -1 km/s to -3 km/s.

Published

2015

9. Observation of fluctuation-driven particle flux reduction by low-frequency zonal flow in a linear magnetized plasma

Author

Hui Li, Tao Lan, Defeng Kong, S. B. Zhang, A. D. Liu, Guang-yue Hu, J. L. Xie, Rende Chen, Changxuan Yu, and Weihao Liu

Subjects

Physics, Turbulence, Flux, Zonal flow (plasma), Plasma, Condensed Matter Physics, Computational physics, law.invention, Amplitude, law, Harmonics, Intermittency, Plasma diagnostics, Atomic physics

Abstract

Low-frequency zonal flow (ZF) has been observed in a linear magnetic plasma device, exhibiting significant intermittency. Using the conditional analysis method, a time-averaged fluctuation-induced particle flux was observed to consistently decrease as ZF increased in amplitude. A dominant fraction of the flux, which is driven by drift-wave harmonics, is reversely modulated by ZF in the time domain. Spectra of the flux, together with each of the related turbulence properties, are estimated subject to two conditions, i.e., when potential fluctuation series represents a strong ZF intermittency or a very weak ZF component. Comparison of frequency-domain results demonstrates that ZF reduces the cross-field particle transport primarily by suppressing the density fluctuation as well as decorrelating density and potential fluctuations.

Published

2015

10. Observation of pedestal turbulence in edge localized mode-free H-mode on experimental advanced superconducting tokamak

Author

Z. X. Liu, Xiuwen Han, Yumin Wang, Hao Qu, Tonghui Shi, Defeng Kong, S. B. Zhang, T. Zhang, and Xiang Gao

Subjects

Physics, Toroid, Plasma parameters, Cyclotron, Condensed Matter Physics, Lower hybrid oscillation, law.invention, Pedestal, Physics::Plasma Physics, law, Harmonic, Atomic physics, Edge-localized mode, Ion cyclotron resonance

Abstract

Two different pedestal turbulence structures have been observed in edge localized mode-free phase of H-mode heated by lower hybrid wave and RF wave in ion cyclotron range of frequencies (ICRF) on experimental advanced superconducting tokamak. When the fraction of ICRF power PICRF/Ptotal exceeds 0.7, coherent mode is observed. The mode is identified as an electromagnetic mode, rotating in electron diamagnetic direction with a frequency around 50 kHz and toroidal mode number n = −3. Whereas when PICRF/Ptotal is less than 0.7, harmonic mode with frequency f = 40–300 kHz appears instead. The characteristics of these two modes are demonstrated preliminarily. The threshold value of heating power and also the plasma parameters are distinct.

Published

2014