Didie Stievenard,Bernard Legrand.Silocon surface nano-oxidation using scanning probe microscopy[J].Progress in Surface Science,2006,81(2~3):112~140.
[2]
Tegens,Kracke B.Surface modification with a scanning force microscope[J].Rev.Sci.Instrum.,1997,68:1 458~1 460.
[3]
Lee J M,Won Hyuk Jin,Dac Eun Kin.Application of single asperity abrasion process for surface micro-machining[J].Wear,2001,251(1~12):1 133~1 143.
[4]
Marmin H J,Chiangs,Birk H.Gold deposition from a scanning tunneling microscope tip[J].Phys.,1996,69(4):433.
[5]
Cruchon-Dupeyrat S,Porthun S,Liu G Y.Nanofabrication using computer-assisted design and automated vector-scanning probelithog raphy[J].Applied Surface Science,2001,175~176:636~642.
[6]
Song Jiaqing,Liu Zhongfan,Li Chunzong.SPM-based nano fabrication using a synchronization technique[J].Applied Physics A,1998,66(4):1 247~1 251.
[7]
Zhou Hualan,Li Zhuang,Wu Aiguo.The influence of tip performance on scanning probe lithography[J].Applied Surface Science,2004,221(1~4):402~407.
[8]
Kim Y S,Na K H,Choi S O,et al.Atomic force microscopy-based nano-lithography for nano-patterning:a molecular dynamics study[J].Journal of Materials Processing Technology,2004,155~156:1 847~1 854.
[9]
Cheng K,Luo X,Ward R,et al.Modeling and simulation of the tool wear in nanometric cutting[J].Wear,2003,255(7~12):1 427~1 432.
[10]
Rentsh R.Influence of crystal orientation on the nanometric cutting precess[C].Proceeding of the 1st International Euspen Conference.Bremen,1999:250~253.
Fang Te-Hua,Weng Cheng-I,Chang Jee-Gong.Molecular dynamics simulation of nano-lithography process using atomic force microscopy[J].Surface Science,2002,501(1~2):138~147.
