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Literature DB >> 33531555

Theoretical and experimental revision of surface acoustic waves on the (100) plane of silicon.

Alexander Tarasenko^1,2, Radim Čtvrtlík^3,4, Radim Kudělka².

Abstract

The phase velocity dispersion of the surface acoustic waves on a basal plane of Si(100) has been calculated in the whole range of the azimuthal angle of propagation. We present a detailed description of the calculations. These calculations are compared with the experimental data obtained by a laser acoustic method. Our data convincingly demonstrate the existence of a gap in the spectrum of the phase velocities. The gap means that in a definite range of the phase velocities the SAWs are absent in the whole interval of the azimuthal angles. There is an excellent coincidence between the numerical and experimental data.

Entities: Chemical Disease Gene

Year: 2021 PMID： 33531555 DOI： 10.1038/s41598-021-82211-6

Source DB: PubMed Journal: Sci Rep ISSN： 2045-2322 Impact factor: 4.379

7 in total

Theoretical and experimental revision of surface acoustic waves on the (100) plane of silicon.

1. A study of the secular equation for rayleigh waves using the root locus method.

2. Rapid and accurate analysis of surface and pseudo-surface waves using adaptive laser ultrasound techniques.

3. Supersonic surface acoustic waves on the 001 and 110 surfaces of cubic crystals.

4. An improved approximation of Bergmann's form for the Rayleigh wave velocity.

5. Laser-based linear and nonlinear guided elastic waves at surfaces (2D) and wedges (1D).

Review 6. Elastic surface waves in crystals. Part 1: review of the physics.

7. A note on formulas for the Rayleigh wave speed in elastic solids.