Femtosecond Micromachinnin 100 m Metals Ceramics Diamond Teeth High Explosives Ultrashort pulses are ideal for micro-machining Ultrashort pulse lasers can precision machine many M.D. Feit, A.M. Komashko, A.M. Rubenchik, Lawrence Livermore National Labora Polymers
Femtosecond Micromachinning Metals CeramicsDiamond Teeth High Explosives Ultrashort pulses are ideal for micro-machining Ultrashort pulse lasers can precision.
Dec 14, 2015
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Femtosecond Micromachinning
100 m
Metals
CeramicsDiamond
Teeth High Explosives
Ultrashort pulses are ideal for micro-machiningUltrashort pulses are ideal for micro-machining
Ultrashort pulse lasers can precision machine many materialsUltrashort pulse lasers can precision machine many materials
M.D. Feit, A.M. Komashko, A.M. Rubenchik, Lawrence Livermore National Laboratory
Polymers
x
Threshold for cutting
Beam focused to 2
Beam profile
Size of hole
Ultrashort-pulse micro-machining can make sub-wavelength holes
Because high-order nonlinear-optical processes are responsible for cutting, there is effectively a threshold for cutting. This means
that careful control of the intensity can yield a very small hole
Long pulse Short pulse
Long- vs. short-pulse micromachining
The main advantages of femtosecond micro machining are: - No thermal damage: High machining quality, heat sensitive material machining - Unmatched accuracy: Down to 100nm (very well defined ablation threshold) - No wavelength dependence: Any material can be machined with the same laser
Examples
540 nm
Sub-micron holes in stainless steelSub-micron holes in stainless steelFemtosecond-Pulse Drilled HoleFemtosecond-Pulse Drilled Hole
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