Ion beam-generated surface ripples: new insight in the underlying mechanism

被引:0
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作者
Tanuj Kumar
Ashish Kumar
Dinesh Chander Agarwal
Nirnajan Prasad Lalla
Dinakar Kanjilal
机构
[1] Inter-University Accelerator Centre,UGC
[2] Indian Institute of Technology Delhi Hauz-Khas,DAE Consortium for Scientific Research
[3] University Campus,undefined
来源
Nanoscale Research Letters | / 8卷
关键词
Ion beam; Ripples; TEM; AFM; 81.16.Rf; 68.35.Ct; 68.49.Sf; 79.20.Rf;
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摘要
A new hydrodynamic mechanism is proposed for the ion beam-induced surface patterning on solid surfaces. Unlike the standard mechanisms based on the ion beam impact-generated erosion and mass redistribution at the free surface (proposed by Bradley-Harper and its extended theories), the new mechanism proposes that the incompressible solid flow in amorphous layer leads to the formation of ripple patterns at the amorphous-crystalline (a/c) interface and hence at the free surface. Ion beam-stimulated solid flow inside the amorphous layer probably controls the wavelength, whereas the amount of material transported and re-deposited at a/c interface control the amplitude of ripples.
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