The Nonlinear Enhancement Effect of Sputered Ag-atoms With FeCl<SUP>+</SUP> Bombardment

Wang Zhenxia; Wang Minmin; Zhu Fuying; Ji Guifang; Luo Wenyun; Li Xinnian; Wang Chuanshan

Chinese Physics C> 1997, Vol. 21> Issue(4) : 304-310

The Nonlinear Enhancement Effect of Sputered Ag-atoms With FeCl⁺ Bombardment

Institute of Nuclear Research.The Chinese Academy of Sciences,Shanghai 2018002 The Department of Physics,Shanghai University,Shanghai 2018003 Shanghai Applied Radiation Intitute,Shanghai University,Shanghai 201800

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Abstract：
Measurements of the angular distributions and yields of atoms sputtered from Ag target by bombardment with FeCl⁺,⁵⁶Fe⁺ and ³⁵Cl⁺ are reported.Large enhancement occurs in the measured Ag atom yield for FeCl⁺ projectile in comparison with the sum of the sputtering yields for ⁵⁶Fe⁺ and ³⁵Cl⁺ bombardment at same impact velocities.The enhanecment can be explained by a model of the thermal spike-evaporation plus surface topography effect.

References

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Wang Zhenxia, Wang Minmin, Zhu Fuying, Ji Guifang, Luo Wenyun, Li Xinnian and Wang Chuanshan. The Nonlinear Enhancement Effect of Sputered Ag-atoms With FeCl⁺ Bombardment[J]. Chinese Physics C, 1997, 21(4): 304-310.

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Received: 1900-01-01
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沈阳化工大学材料科学与工程学院沈阳 110142

The Nonlinear Enhancement Effect of Sputered Ag-atoms With FeCl⁺ Bombardment

Corresponding author: Wang Zhenxia,

Institute of Nuclear Research.The Chinese Academy of Sciences,Shanghai 2018002 The Department of Physics,Shanghai University,Shanghai 2018003 Shanghai Applied Radiation Intitute,Shanghai University,Shanghai 201800

Received Date: 1900-01-01

Accepted Date: 1900-01-01

Available Online: 1997-04-05

Abstract: Measurements of the angular distributions and yields of atoms sputtered from Ag target by bombardment with FeCl⁺,⁵⁶Fe⁺ and ³⁵Cl⁺ are reported.Large enhancement occurs in the measured Ag atom yield for FeCl⁺ projectile in comparison with the sum of the sputtering yields for ⁵⁶Fe⁺ and ³⁵Cl⁺ bombardment at same impact velocities.The enhanecment can be explained by a model of the thermal spike-evaporation plus surface topography effect.

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