| [1] | ZHAO Zh M.The application of laser cleaning technology in micro electronics in industry field[J].Cleaning Technology,2004,2(8):29~34(in Chinese). |
| [2] | ZHENG Y W,LUKYANCHUK B S,LU Y F et al.Dry laser cleaning of particles from solid substrates experiments and theory[J].J A P,2001,90(5):2137~2142. |
| [3] | TAM A C,LEUNG W P,ZAPKA W et al.Laser-cleaning techniques for removal of surface particulates[J].J A P,1992,71(7):3515~3523. |
| [4] | LU Y F,SONG W D,LOW T S.Laser cleaning of micro-particles from a solid surface-theory and applications[J].Materials Chemistry and Physics,1998,54(1):181~185. |
| [5] | FOURRIER T,SCHREMS G,MUHLBERGER T et al.Laser cleaning of polymer surfaces[J].Appl Phys,2001,A72(1):1~6. |
| [6] | KERRY J D,STUFF M I,HOVUS F E et al.Removal of small particles from surfaces by pulsed laser irradiation.[J].Proc SPIE,1991,1415:211~219. |
| [7] | LU Y F,ZHENG Y W,SONG W D.Laser induced removal of spherical particles from silicon wafers[J].J A P,2000,87(3):1534~1539. |
| [8] | SONG W D,HONG M H,LEE S H et al.Real-time monitoring of laser cleaning by an airborne particle counter[J].Applied Surface Science,2003,208(2):306~310. |
| [9] | DOBLER V,OLTRA R,BOQUILLON J P et al.Surface acceleration during dry laser cleaning of silicon[J].Appl Phys,1999,A69(7):335~337. |
| [10] | LI J Ch.Calculation of laser diffraction and heat interaction[M].Beijing:Science Press,2001.341~432(in Chinese). |
| [11] | TAM A C,PARK H K,GRIGOROPOULOS C P.Laser cleaning of surface contaminants[J].Applied Surface Science,1998,127(3):721~725. |
| [12] | LU Y F,SONG W D,ANG B W et al.A theoretical model for laser removal of particles from solid surfaces[J].Appl Phys,1997,A65(1):9~13. |
| [13] | LEE J M,WATKINS K G,STEEN W M.Angular laser cleaning for effective removal of particles from a solid surface[J].Appl Phys,2000,A71(6):671~674. |
| [14] | VEREECKE G,ROHR E,HEYNS M M.Influence of beam incidence angle on dry laser cleaning of surface particles[J].Applied Surface Science,2000,157(1):67~73. |
| [15] | SONG W D,HONG M H,KOH H L et al.Laser-induced removal of plate-like particles from solid surface[J].Applied Surface Science,2002,186(1):69~74. |
| [16] | KIM T,LEE J M,CHO S H et al.Acoustic emission monitoring during laser shock cleaning of silicon wafers[J].Optics and Laser in Engineering,2005,43(9):1010~1020. |
| [17] | LEE S H,PARK J G,LEE J M et al.Si wafer surface cleaning using laser-induced shock wave:a new dry cleaning methodology[J].Surface and Coatings Technology,2003,169(1):178~180. |
| [18] | LIM H,KIM D.Optical diagnostics for particle-cleaning process utilizing laser-induced shockwave[J].Appl Phys,2004,A79(5):965~968. |
| [19] | LUK B S,WANG Z B,SONG W D et al.Particle on surface:3-D-effects in dry laser cleaning[J].Appl Phys,2004,A79(4):747~751. |
| [20] | MOSBACHER M,MUNZER H J,ZIMMERMANN J.Optical field enhancement effects in laser-assisted particle removal[J].Appl Phys,2001,A72(1):41~44. |
| [21] | ZHENG Y W,LU Y F,SONG W D.Angular effect in laser removal of spherical silica particles from silicon wafers[J].J A P,2001,90(1):59~63. |
| [22] | MOSBACHER M,CHAOUI N,SIEGEL J et al.A comparison of ns and ps steam laser cleaning of Si surface[J].Appl Phys,1999,A69(7):331~334. |
| [23] | LU Y F,ZHANG Y,WAN Y H et al.Laser cleaning of silicon surface with deposition of different liquid films[J].Applied Surface Science,1999,138(1):140~144. |
| [24] | MOSBACHER M,DOBLER V,BONEBERG J et al.Universal threshold for the steam laser cleaning of sub-micron spherical particles from silicon[J].Appl Phys,2000,A70(6):669~672. |
| [25] | JIN R X,HUAI X L,LIU D Y.The applicability of classical theory for rapid transient explosive boiling[J].Journal of Engineering Thermo Physics,2003,24(6):1013~1015(in Chinese). |
| [26] | LANG F,MOSBACHER M,LEIDERER P.Near field induced defects and influence of the liquid layer thickness in steam laser cleaning of silicon wafers[J].Appl Phys,2003,A77(1):117~123. |
| [27] | CAO B Q,ZENG X Y.Review of patents in laser processing in China and America[J].Laser Technology,2004,28(4):346~351(in Chinese). |