Thermal analysis of metal ablation by means of femtosecond-to-nanosecond laser pulses
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Corresponding author:
TAO Xiang-yang, x.y.tao@163.com
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Received Date:
2005-12-10
Accepted Date:
2006-01-02
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Abstract
Based on double-temperature equation,the temperature field of metal ablation by means of femtosecond,picosecond and nanosecond laser pulses is numerically calculated with finite-difference method to describe different laser pulses ablation on metal surface.The derived results are compared with those obtained with the approximate analytical expressions and simplified equations.Then the application range scope of the different simplified equations and the reasonability of simplification are discussed.The relationship between the electron heat flux expression and the laser intensity is also analyzed.The calculation shows that the results of the simplified equations are consistent with the numerical calculation results obtained with the double-temperature equation.It is proved that the temperature of the lattice can be treated as a constant and the double-temperature equation reduces to the electron temperature equation for femtosecond scale laser pulses,the system should be described by a complete double-temperature equation for picosecond laser pulses,and that the electron and lattice temperature are equal and the model is reduced to a heat conduction equation during for nanosecond laser pulses.
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References
|
[1]
|
CHE H Sh.The femtosecond and the appliance[J].Laser Optoelectronics Progress,2003,40 (8):5~9 (in Chinese). |
|
[2]
|
BAI G.The appliance of the femtosecond[J].Laser Optoelectronics Progress,2002,39(3):41~44(in Chinese). |
|
[3]
|
CHEN Ch Zh,BAO Q H,YAO Sh Sh et al.Pulsed laser deposition and its application[J].Laser Technology,2003,27 (5):443~446(in Chinese). |
|
[4]
|
ANISIMOV S I,KAPELIOVICH B L,PERELMAN T L et al.Electron emission from metal surfaces exposed to ultra-short laser pulses[J].Soy Phys-JETP,1974,39:375~378. |
|
[5]
|
EESLEY G L.Generation of nonequilibrium electron and lattice temperatures in copper by picosecond laser pulses[J].Phys Rev,1986,B33(4):2144~2150. |
|
[6]
|
CORKUM P B,BRUNEL F,SHERMAN N K.Thermal response of metals to ultrashort-pulse laser excitation[J].Phys Rev Lett,1988,61(25):2886~2889. |
|
[7]
|
CHICKKOV B N,MOMMA C,NOLTE S et al.Femtosescond,picosecond and nanosecond laser ablation of solids[J].Appl Phys,1996,A63 (2):109~115. |
|
[8]
|
ELSAYED-ALI H E,NORRIS T B,PESSOT M A et al.Time-resolved observation of electron-phonon relaxation in copper[J].Phys Rev Lett,1987,58(12):1212~1215. |
|
[9]
|
PENG H M,WANG Sh J,QIU Y B et al.The X-ray laser[M].Beijing:National Defence Industry Press,1997.166~168 (in Chinese). |
|
[10]
|
LIU Zh,LI R X,YU W et al.Heating of planar metal targets by ultrashort laser pulses[J].Acta Optica Sinica,2000,20 (10):1297~1304(in Chinese). |
|
[11]
|
NIX Ch,WANG Q Y.Finite difference method for thermal analysis of femtosecond-picosecond pulse laser ablation on metal surface[J].Chinese Journal of Lasers,2004,31 (3):277~280 (in Chinese). |
|
[12]
|
EESLEY G L.Observation of nonequilibrium electron heating in copper[J].Phys Rev Lett,1983,51 (23):2140~2143. |
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