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- Title
Dissipative nanostructures and Feigenbaum’s universality in the “Metal-high-power ultrashort-pulsed polarized radiation” nonequilibrium nonlinear dynamical system.
- Authors
Makin, V. S.; Makin, R. S.; Vorobyev, A. Ya.; Chunlei Guo
- Abstract
We have observed for the first time the phenomenon of a jumplike decrease in the spatial period of a resonance nanorelief formed on a metal surface under the action of a series of high-power femtosecond laser radiation pulses. The residual surface nanorelief formed within the framework of a universal polariton model is related to the generation of a standing-wave pattern due to the interference of the incident wave and the laser-generated surface plasmons. It is established that the formation of resonance nanostructures with two spatial periods differing by a factor of 2 on the surface of titanium is fully consistent with the universal polariton model. The formation of resonance nanostructures with multiple spatial periods in the “metal surface-high-power femtosecond-pulsed radiation” system is also interpreted within the framework of the mathematical model of Feigenbaum’s universality, with a quantity proportional to the number of laser radiation pulses playing the role of a control (bifurcation) parameter.
- Subjects
INDUSTRIAL lasers; NANOSTRUCTURES; LASER beams; PLASMONS (Physics); LASER-plasma interactions; LASER plasmas
- Publication
Technical Physics Letters, 2008, Vol 34, Issue 5, p387
- ISSN
1063-7850
- Publication type
Article
- DOI
10.1134/S1063785008050088