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Machining Science and Technology
An International Journal
Volume 15, 2011 - Issue 3
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Original Articles

ENERGY DEPOSITION AND NON-THERMAL ABLATION IN FEMTOSECOND LASER GROOVING OF SILICON

D. P. Wan School of Mechanical and Manufacturing Engineering, The University of New South Wales, Sydney, AustraliaView further author information
,
Jun Wang School of Mechanical and Manufacturing Engineering, The University of New South Wales, Sydney, AustraliaCorrespondence[email protected]
&
Philip Mathew School of Mechanical and Manufacturing Engineering, The University of New South Wales, Sydney, Australia
Pages 263-283 | Published online: 22 Aug 2011

REFERENCES

  • Amoruso , S. ; Ausanio , G. ; Bruzzese , R. ; Gragnaniello , L. ; Lanotte , L. ; Vitiello , M. ; Wang , X. ( 2005 ) Characterization of laser ablation of solid targets with near-infrared laser pulses of 100 fs and 1 ps duration . Applied Surface Science , 252 ( 13 ): 4863 – 4870 .
  • Bonse , J. ; Baudach , S. ; Kruger , J. ; Kautek , W. ; Lenzner , M. ( 2002 ) Femtosecond laser ablation of silicon-modification thresholds and morphology . Appl. Phys. A , 74 : 19 – 25 .
  • Bulgakova , N.M. ; Stoian , R. ; Rosenfeld , A. ; Hertel , I.V. ; Marine , W. ; Campbell , E.E.B. ( 2005 ) A general continuum approach to describe fast electronic transport in pulsed laser irradiated materials: The problem of Coulomb explosion . Applied Physics A , 81 : 345 – 356 .
  • Burakov , I.M. ; Bulgakova , N.M. ; Stoian , R. ; Rosenfeld , A. ; Hertel , I.V. ( 2005 ) Theoretical investigations of material modification using temporally shaped femtosecond laser pulses . Appl Phys. A , 81 : 1639 – 1645 .
  • Chen , J.K. ; Tzou , D.Y. ; Beraun , J.E. ( 2004 ) Numerical investigation of ultrashort laser damage in semiconductors . International Journal of Heat and Mass Transfer , 48 ( 3–4 ): 501 – 509 .
  • Chen , J.K. ; Tzou , D.Y. ; Beraun , J.E. ( 2006 ) A semiclassical two-temperature model for ultrafast laser heating . Int. J. Heat Mass Transfer , 49 ( 1–2 ), 307 – 316 .
  • Chichkov , B.N. ; Momma , C. ; Nolte , S. ; von Alvensleben , F. ; Tünnermann , A. ( 1996 ) Femtosecond, picosecond and nanosecond laser ablation of solids . Applied Physics A , 63 : 109 – 115 .
  • Choi , T.Y. ; Grigoropoulos , C.P. ( 2002 ) Plasma and ablation dynamics in ultrafast laser processing of crystalline silicon . Journal of Applied Physics , 92 ( 9 ): 4918 – 4925 .
  • Choi , T.Y. ; Hwang , D.J. ; Grigoropoulos , C.P. ( 2002 ) Femtosecond laser induced ablation of crystalline silicon upon double beam irradiation . Applied Surface Science , 197–198 : 720 – 725 .
  • Crawford , T.H. R. ; Borowiec , A. ( 2005 ) Femtosecond laser micromachining of grooves in silicon with 800 nm pulses . Applied Physics A , 80 : 1717 – 1724 .
  • Drabble , J.R. ; Goldsmid , H.J. ( 1961 ) Thermal Conduction in Semiconductors , Pergamon Press : Oxford , England .
  • Drogoff , B. Le ; Margot , J. ; Sabsabi , M. ( 2002 ) Fluid modeling of the laser ablation depth as a function of the pulse duration for conductors . Physics Reviews E, Part 2 , 66 : 066415 .
  • Gamaly , E.G. ; Rode , A.V. ; Luther-Davies , B. ( 1999 ) Ultrafast ablation with high-pulse-rate lasers. Part I: Theoretical considerations . Journal of Applied Physics , 85 ( 8 ): 4213 – 4221 .
  • Guizard , S. ; Semerok , A. ; Gaudin , J. ; Hashida , M. ; Martin , P. ; Quéré , F. ( 2002 ) Femtosecond laser ablation of transparent dielectrics: measurement and modelisation of crater profiles . Applied Surface Science , 186 : 364 – 368 .
  • Holenstein , R. ; Kirkwood , S.E. ; Fedosejevs , R. ; Tsui , Y.Y. ( 2004 ) Simulation of femtosecond laser ablation of silicon . Proceedings SPIE , 5579 : 688 .
  • Hwang , D.J. ; Grigoropoulos , C.P. ; Choi , T.Y. ( 2006 ) Efficiency of silicon micromachining by femtosecond laser pulses in ambient air . Journal of Applied Physics , 99 : 083101 .
  • Jeong , S. ; Bokor , J. ( 1999 ) Ultrafast carrier dynamics near the Si(100)2 × 1 surface . Physical Review B , 59 : 4943 – 4951 .
  • Jeschke , H.O. ; Garcia , M.E. ; Lenzner , M. ; Bonse , J. ; Krüger , J. ; Kautek , W. ( 2002 ) Laser ablation thresholds of silicon for different pulse durations: Theory and experiment . Applied Surface Science , 197–198 : 839 – 844 .
  • Jiang , L. ; Tsai , H.L. ( 2004 ) Prediction of crater shape in femtosecond laser ablation of dielectrics . Journal of Physics D, Applied Physics , 37 : 1492 .
  • Jiang , L. ; Tsai , H.L. ( 2005 ) Energy transport and material removal during femtosecond laser ablation of wide bandgap materials . International Journal of Heat and Mass Transfer , 48 : 487 .
  • Ki , H. ; Mazumder , J. ( 2005 ) A numerical simulation of femtosecond laser interaction with silicon . Journal of Laser Applications , 17 ( 2 ): 110 – 117 .
  • Korfiatis , D.P. ; Thoma , K.-A.Th. ; Vardaxoglou , J.C. ( 2007 ) Conditions for femtosecond laser melting of silicon . Journal of Physics D, Applied Physics , 40 ( 21 ): 6803 – 6808 .
  • Korfiatis , D.P. ; Thoma , K.A. Th. ; Vardaxoglou , J.C. (2009) Numerical modeling of ultrashort-pulse laser ablation of silicon. Applied Surface Science , 255(17): 7605–7609.
  • Lee , S. ; Yang , D.F. ; Nikumb , S. ( 2008 ) Femtosecond laser micromilling of Si wafers . Applied Surface Science , 254 : 2996 – 3005 .
  • Li , H. ; Ki , H. ( 2006 ) Effect of ionization on femtosecond laser pulse interaction with silicon . Journal of Applied Physics , 100 ( 10 ): 104907 – 104915 .
  • Mao , S.S. ; Mao , X.L. ; Greif , R. ; Russo , R.E. ( 1998 ) Simulation of infrared picosecond laser-induced electron emission from semiconductors . Applied Surface Science , 129 : 206 – 211 .
  • Matsumura , T. ; Nakatani , T. ; Yagi , T. ( 2007 ) Deep drilling on a silicon plate with a femtosecond laser: experiment and model analysis . Applied Physics A , 86 : 107 – 114 .
  • Ohmura , E. ; Fukuyo , F. ; Fukumitsu , K. ; Morita , H. ( 2006 ) Internal modified-layer formation mechanism into silicon with nano second laser . Journal of Achievements in Materials and Manufacturing Engineering , 17 ( 1–2 ): 381 – 384 .
  • Sokolowski-Tinten , K. ; Linde , D. von der ( 2000 ) Generation of dense electron–hole plasmas in silicon . Physical Review B , 61 : 2643 – 2649 .
  • van Driel , H.M. ( 1987 ) Kinetics of high-density plasmas generated in Si by 1.06- and 0.53-µm picoseconds laser pulses . Physical Review B , 35 ( 15 ): 8166 – 8176 .
  • Vidal , F. ; Johnston , T.W. ; Laville , S. ; Barthelemy , O. ; Chaker , M. ; Drogoff , B.L. ; Margot , J. ; Sabsabi , M. ( 2001 ) Critical-point phase separation in laser ablation of conductors . Physical Review Letters , 86 ( 12 ): 2573 – 2576 .
  • Wu , B.X. ; Shin , Y.C. ( 2009 ) A simplified predictive model for high-fluence ultra-short pulsed laser ablation of semiconductors and dielectrics . Applied Surface Science , 255 ( 9 ): 4996 – 5002 .

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