Z
Z. P. Zhong
Researcher at University of Science and Technology of China
Publications - 8
Citations - 192
Z. P. Zhong is an academic researcher from University of Science and Technology of China. The author has contributed to research in topics: Scattering & Valence electron. The author has an hindex of 5, co-authored 8 publications receiving 173 citations.
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Electron-impact study in valence and autoionization resonance regions of argon
TL;DR: The recently built electron-energy-loss spectrometer (EELS) was employed to measure the EELS spectra of argon in the discrete and autoionization resonance regions at a 2.5-keV impact energy and a mean scattering angle of 0{degree.
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Absolute generalized oscillator strengths of 2 1 S and 2 1 P excitations of helium measured by angle-resolved electron-energy-loss spectroscopy
TL;DR: The differential scattering cross sections and generalized oscillator strengths of the 1-2-2 transitions of helium have been measured by angle-resolved electron-energy-loss spectroscopy with an incident electron energy of 1500 eV and within the range of scattering angles.
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Absolute generalized oscillator strengths for the vibronic bands of A 1 Π, B 1 Σ + , C 1 Σ + , and E 1 Π transitions of carbon monoxide
TL;DR: In this paper, the experimental generalized oscillator strengths for the vibronic bands were determined by an angle-resolved electron energy loss spectroscopy at an incident electron energy of 1500 eV and in an angular range of 0.6.
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Optical oscillator strengths and angular variation of intensity distributions within the Lyman and Werner bands of molecular hydrogen
TL;DR: The absolute optical oscillator strength density spectrum in the valence excitation region of molecular hydrogen was established at an impact energy of 1500 eV and a mean scattering angle of 0° as mentioned in this paper.
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Elastic differential cross sections of 1500 eV electron scattering from helium
TL;DR: In this paper, the experimental and theoretical studies of electron scattering from helium at an impact energy of 1500 eV and scattering angles between and have been made, and the experimental differential cross sections are compared with calculations based on the eikonal Born series, the first Born approximation and the relativistic static and non-local exchange estimation.