Wave propagation on helices and hyperhelices: a fractal regression

Wave propagation on helices and hyperhelices: a fractal regression

A hyperhelix of order N is defined to be a self-similar object consisting of a thin elastic rod wound into a helix, which is itself wound into a larger helix, until this process has been repeated N times. Wave propagation on such a structure can be discussed in a hierarchical manner, ultimately in t...

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Veröffentlicht in:Proceedings of the Royal Society. A, Mathematical, physical, and engineering sciences Mathematical, physical, and engineering sciences, 2001-01, Vol.457 (2005), p.33-43
Hauptverfasser: Fletcher, N.H, Tarnopolskaya, T, de Hoog, F.R
Format: Artikel
Sprache:eng
Schlagworte:
Bending
Curvature
Fractals
Helix
Hyperhelix
Research Article
Spring
Transverse waves
Vibration
Vibrations
Wave dispersion
Wave propagation
Wavelengths
Waves
Zero
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Zusammenfassung:A hyperhelix of order N is defined to be a self-similar object consisting of a thin elastic rod wound into a helix, which is itself wound into a larger helix, until this process has been repeated N times. Wave propagation on such a structure can be discussed in a hierarchical manner, ultimately in terms of the wavenumber k defining propagation on the elementary rod. It is found that the dispersion curve expressing the wave frequency ω as a function of the elementary wavenumber k on the rod making up the initial helix is also a fractal object, with all the macroscopically observable wave phenomena for a hyperhelix of arbitrarily large order being compressed into a small wavenumber range of width about 2R2-1α centred on the value k = R-1, where R1 is the radius, α is the helical pitch angle of the smallest helix in the progression, and R2 is the radius of the next-larger helix.
ISSN:1364-5021
1471-2946
DOI:10.1098/rspa.2000.0654