Investigation on the intensity contrast of K α line emission from laser–matter interactions
The intensity contrast and its angular distribution of K α line emission originated from the difference of angular distributions of K α and bremsstrahlung emissions from copper foil targets bombarded by electrons similar to the hot electrons generated in laser–matter interactions are investigated by...
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Published in | Physics of plasmas Vol. 31; no. 7 |
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Main Authors | , |
Format | Journal Article |
Published |
01.07.2024
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Abstract | The intensity contrast and its angular distribution of
K
α line emission originated from the difference of angular distributions of
K
α and bremsstrahlung emissions from copper foil targets bombarded by electrons similar to the hot electrons generated in laser–matter interactions are investigated by Monte Carlo simulations. For mono-energetic electron incidences, a higher contrast
K
α emission is generated at large detection angles relative to the incident electron direction and for higher electron energy. The
K
α emission contrast is decreased with the increase in target thickness. When the areal density of targets is fixed, the contrast is almost unchanged with the change of target density and thickness. For incident electrons with a Boltzmann energy distribution, a higher contrast
K
α emission can also be generated at large detection angles and for higher electron temperatures, but the contrast is lower compared to that for mono-energetic electron incidences, and it is changed only slightly with the increase in target thickness. These results help to understand the contrast of
K
α emissions in previous experiments. Suggestions are proposed for future laser–matter interaction experiments for higher contrast
K
α emissions. |
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AbstractList | The intensity contrast and its angular distribution of
K
α line emission originated from the difference of angular distributions of
K
α and bremsstrahlung emissions from copper foil targets bombarded by electrons similar to the hot electrons generated in laser–matter interactions are investigated by Monte Carlo simulations. For mono-energetic electron incidences, a higher contrast
K
α emission is generated at large detection angles relative to the incident electron direction and for higher electron energy. The
K
α emission contrast is decreased with the increase in target thickness. When the areal density of targets is fixed, the contrast is almost unchanged with the change of target density and thickness. For incident electrons with a Boltzmann energy distribution, a higher contrast
K
α emission can also be generated at large detection angles and for higher electron temperatures, but the contrast is lower compared to that for mono-energetic electron incidences, and it is changed only slightly with the increase in target thickness. These results help to understand the contrast of
K
α emissions in previous experiments. Suggestions are proposed for future laser–matter interaction experiments for higher contrast
K
α emissions. |
Author | Wang, Xiaofang Xiao, Yangyang |
Author_xml | – sequence: 1 givenname: Yangyang surname: Xiao fullname: Xiao, Yangyang organization: School of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China – sequence: 2 givenname: Xiaofang surname: Wang fullname: Wang, Xiaofang organization: School of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China |
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Snippet | The intensity contrast and its angular distribution of
K
α line emission originated from the difference of angular distributions of
K
α and bremsstrahlung... |
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Title | Investigation on the intensity contrast of K α line emission from laser–matter interactions |
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