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Trace spectrum of 1D Transfer Matrices for wave propagation in layered media
DOI:
https://doi.org/10.31224/osf.io/ygt8zKeywords:
Dispersion Relation, Laminates, Layered Media, Transfer MatricesAbstract
The Transfer Matrix formalism is ubiquitous when it comes to study wave propagation in various stratified media, applications ranging from Seismology to Quantum Mechanics. A relation between variables at two points in two different layers can be established via a matrix, termed (global) transfer matrix (product of ``atomic'' single-layer matrices). As a matter of convenience, we focus on 1D propagation of axial waves in rods, but our results extend to other fields where the formalism applies. When the layering corresponds to a representative repeated cell in an otherwise infinitely periodic medium, the trace of the cumulative multi-layer matrix is known to control the dispersion relation. It is proved that this trace has a discrete spectrum made up of distinct 2**(N-1) harmonics (not necessarily orthogonal to each other in any sense) which are exactly characterized in terms of both the frequency of their oscillations and their amplitudes; the phase shift among harmonics is either zero or pi. This definite appraisal of the discrete spectrum of the trace opens new strategies for rational design of bandgaps, going beyond parametric or sensitivity studies.Downloads
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Posted
2021-06-24 — Updated on 2021-06-24
