Record link: 
http://hdl.handle.net/20.500.12708/219219
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Title: 
Femtosecond Optical Breakdown in Dielectrics
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Citation: 
Lenzner, M., Krüger, J., Sartania, S., Cheng, Z., Spielmann, C., Mourou, G., Kautek, W., & Krausz, F. (1998). Femtosecond Optical Breakdown in Dielectrics. Physical Review Letters, 80(18), 4076–4079. https://doi.org/10.1103/PhysRevLett.80.4076
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Publisher DOI: 
10.1103/PhysRevLett.80.4076
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Publication Type: 
Article - Original Research Article
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Language: 
English
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Authors: 
Lenzner, Matthias 
Krüger, J. 
Sartania, S. 
Cheng, Z. 
Spielmann, Christian 
Mourou, G. 
Kautek, W. 
Krausz, Ferenc 
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Organisational Unit: 
E387 - Institut für Photonik 
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Journal: 
Physical Review Letters 
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ISSN: 
0031-9007
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Date (published): 
4-May-1998
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Number of Pages: 
4
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Publisher: 
AMER PHYSICAL SOC
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Peer reviewed: 
Yes
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Keywords: 
Femtosecond laser; ultrafast lasers; nonlinear optics
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Abstract: 
We report measurements of the optical breakdown threshold and ablation depth in dielectrics with different band gaps for laser pulse durations ranging from 5 ps to 5 fs at a carrier wavelength of 780 nm. For τ < 100fs, the dominant channel for free electron generation is found to be either impact or multiphoton ionization (MPI) depending on the size of the band gap. The observed MPI rates are substantially lower than those predicted by the Keldysh theory. We demonstrate that sub-10-fs laser pulses open up the way to reversible nonperturbative nonlinear optics (at intensities greater than 10<sup>14</sup>W/cm<sup>2</sup> slightly below damage threshold) and to nanometer-precision laser ablation (slightly above threshold) in dielectric materials. © 1998 The American Physical Society.
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Research Areas: 
Photonics: 100%
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Science Branch: 
2020 - Elektrotechnik, Elektronik, Informationstechnik: 100%
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