Proceedings Article10.1109/cleo/europe-eqec57999.2023.10232768
Air Photonics
Stefan Skupin
- 26 Jun 2023
pp 1-1
TL;DR: Air photonics explores the nonlinear optical properties of air, enabling applications such as filamentation, supercontinuum generation, pulse compression, and standoff detection.
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Abstract: Modern ultrashort laser sources routinely produce powerful enough pulses to ionize the ambient air, so that the very atmosphere we breath becomes an interesting medium for nonlinear photonics. One of the first and most prominent ultrafast nonlinear effects studied in air is filamentation [1], [2], and so-called femtosecond filaments have enabled many applications, for example remote supercontinuum generation [3] or pulse compression [4], [5], for review see [6], [7]. Air lasing [8] offering exciting possibilities for standoff detection [9] has been demonstrated. Moreover, air is easily exploited as nonlinear medium in hollow-core photonic crystal fibers [10].
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References
Sediment Transport and Movable Bed s
Oscar Castro-Orgaz,Willi H. Hager +1 more
- 01 Jan 2019
TL;DR: In this article, sediment is either loaded as bed-load with particles sliding, saltating, and rolling over the river bed, or as a suspended-load, where particles move with the turbulent water flow away from the bed.
43K
Femtosecond filamentation in transparent media
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2.4K
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TL;DR: The self-channeling of ultrashort laser pulses through 20 m of air was demonstrated and a preliminary model is shown to explain these results.
1.4K
Intense terahertz pulses by four-wave rectification in air
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TL;DR: A new four-wave rectification method for the generation of intense, ultrafast terahertz pulses from gases that is sensitive to the relative phases of the fundamental and second-harmonic pulses.
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