Chun Tang scite author profile

Au L α and L β and Ag L-shell x-ray production cross-sections by electron impact have been measured in the incident energy region from near threshold to about 25 keV. Thin films with thick aluminium substrates were used as targets in the experiments. The effect of directional and energy spreading of the electron beam within the active films and x-ray enhancement due to backscattering electrons and bremsstrahlung photons from the substrates are corrected by means of Monte Carlo simulations. The corrected experimental data provided by this method are compared with calculated cross-sections from a PWBA theory with Coulomb, relativistic and exchange corrections and with other experimental data available in the literature.

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Experimental Electron-Impact K-Shell Ionization Cross Sections

Liu

Tang

et al. 2000

Atomic Data and Nuclear Data Tables

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0.56 GeV Laser Electron Acceleration in Ablative-Capillary-Discharge Plasma Channel

Kameshima

Wang

Sugiyama

et al. 2008

Appl. Phys. Express

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A high-quality electron beam with a central energy of 0.56 GeV, an energy spread of 1.2% rms, and a divergence of 0.59 mrad rms was produced by means of a 4 cm ablative-capillary-discharge plasma channel driven by a 3.8 J 27 fs laser pulse. This is the first demonstration of electron acceleration with an ablative capillary discharge wherein the capillary is stably operated in vacuum with a simple system triggered by a laser pulse. This result of the generation of a high-quality beam provides the prospects to realize a practical accelerator based on laser-plasma acceleration.

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Measurements of L_α, L_βx-ray production cross sections of Pb by 16–40 keV electron impact

Duan

et al. 2007

J. Phys. B: At. Mol. Opt. Phys.

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The measurement of Lα, Lβ x-ray production cross sections for the element Pb (Z = 82) by 16–40 keV electron impact is reported in this paper. The target used in the experiment was prepared by evaporating the elemental Pb onto a thick pure carbon substrate. The effects of multiple scattering of electrons when penetrating the target film, of electrons reflected from the thick pure carbon substrate and of bremsstrahlung photons produced by the impact of incident electrons on the target are corrected using the Monte Carlo method. The experimental data, reported here for the first time in the energy region of interest, are compared with the plane-wave Born approximation theory with exchange, Coulomb and relativistic corrections. They are in good agreement.

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Measurement of scandium and vanadium K-shell ionization cross sections by electron impact

An¹,

Tang²,

Zhou³

et al. 2000

J. Phys. B: At. Mol. Opt. Phys.

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Electron impact Sc and V K-shell ionization cross sections have been measured for the first time in the incident energy region from near threshold to 45 keV. Thin targets with thick substrates are used in the experiments. The influence of the substrate on measured data has been corrected by a method based upon an electron transport calculation. For Sc and V elements, the experimental data are compared with some empirical formulae and theoretical results. It is found that the experimental data for Sc and V and most of the other elements measured before (i.e. Ti, Cr, Mn, Fe, Co, Ni, Cu, Zn, Nb and Mo) with the same method as presented in this paper, can be reasonably described by both Luo's theoretical results and Casnati's empirical formula.

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Some recent progress on the measurement of K-shell ionization cross-sections of atoms by electron impact: Application to Ti and Cr elements

Liu

et al. 2003

Nuclear Instruments and Methods in Physics Research Section B:

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2.5 kW Narrow Linewidth Linearly Polarized All-Fiber MOPA With Cascaded Phase-Modulation to Suppress SBS Induced Self-Pulsing

Feng

Chang

et al. 2020

IEEE Photonics J.

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As a major limitation for power scaling of high power narrow linewidth fiber master oscillator power amplifiers (MOPAs), Stimulated Brillouin Scattering (SBS) induced selfpulsing in polarization maintaining (PM) fiber amplifiers is well characterized and analyzed in this paper by comparing different white noise signal (WNS) phase-modulated modes in experiments. It is found that the self-pulsing effect is not observed in the PM-amplifier with single-frequency laser seed injection, and cascaded WNS modulation provides superior self-pulsing suppression than single WNS modulation with similar output linewidth. Moreover, the experimental results indicate that the self-pulsing threshold can hardly be predicted only by the output linewidth or the defined SBS threshold in a WNS phase modulated fiber amplifier system. As self-pulsing is originated from the spectral spikes in WNS modulated system, we theoretically analyzed characteristics of these spikes in different phase-modulation modes. It indicates the spectral peak intensity can be reduced by cascaded modulation, for which self-pulsing can be suppressed. The theoretical predictions agree well with the experimental results. At the same time, in order to suppress the mode instability effect, a plum blossom shaped bending mode selection device is used in this high-power narrow linewidth fiber amplifier system. Finally, a 32 GHz cascaded WNSs modulated, over than 2.5 kW linearly polarized all-fiber amplifier with a slope efficiency of 86.7% is demonstrated. The polarization extinction ratio (PER) is measured larger than 14 dB and the beam quality factor M 2 maintains lower than 1.3 in the power scaling process.

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Study of cross-sections for the K-shell ionization of atoms by electron and positron impact

Zhengming

Tang

2001

Nuclear Instruments and Methods in Physics Research Section B:

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Chun Tang

Measurements of L-shell x-ray production cross-sections of Au and Ag by low energy electron impact

Experimental Electron-Impact K-Shell Ionization Cross Sections

0.56 GeV Laser Electron Acceleration in Ablative-Capillary-Discharge Plasma Channel

Measurements of L_α, L_βx-ray production cross sections of Pb by 16–40 keV electron impact

Measurement of scandium and vanadium K-shell ionization cross sections by electron impact

Some recent progress on the measurement of K-shell ionization cross-sections of atoms by electron impact: Application to Ti and Cr elements

2.5 kW Narrow Linewidth Linearly Polarized All-Fiber MOPA With Cascaded Phase-Modulation to Suppress SBS Induced Self-Pulsing

Study of cross-sections for the K-shell ionization of atoms by electron and positron impact

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Chun Tang

Measurements of L-shell x-ray production cross-sections of Au and Ag by low energy electron impact

Experimental Electron-Impact K-Shell Ionization Cross Sections

0.56 GeV Laser Electron Acceleration in Ablative-Capillary-Discharge Plasma Channel

Measurements of Lα, Lβx-ray production cross sections of Pb by 16–40 keV electron impact

Measurement of scandium and vanadium K-shell ionization cross sections by electron impact

Some recent progress on the measurement of K-shell ionization cross-sections of atoms by electron impact: Application to Ti and Cr elements

2.5 kW Narrow Linewidth Linearly Polarized All-Fiber MOPA With Cascaded Phase-Modulation to Suppress SBS Induced Self-Pulsing

Study of cross-sections for the K-shell ionization of atoms by electron and positron impact

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Measurements of L_α, L_βx-ray production cross sections of Pb by 16–40 keV electron impact