Author
Listed:
- Claudia Guattari
(Department of Engineering, Roma TRE University, Mechanical and Industrial Engineering Section, Via della Vasca Navale 79, 00146 Rome, Italy)
- Paola Gori
(Department of Engineering, Roma TRE University, Mechanical and Industrial Engineering Section, Via della Vasca Navale 79, 00146 Rome, Italy)
- Roberto De Lieto Vollaro
(Department of Engineering, Roma TRE University, Mechanical and Industrial Engineering Section, Via della Vasca Navale 79, 00146 Rome, Italy)
- Luca Evangelisti
(Department of Engineering, Roma TRE University, Mechanical and Industrial Engineering Section, Via della Vasca Navale 79, 00146 Rome, Italy)
- Gabriele Battista
(Department of Engineering, Roma TRE University, Mechanical and Industrial Engineering Section, Via della Vasca Navale 79, 00146 Rome, Italy)
- Carmine Basilicata
(Department of Engineering, Roma TRE University, Mechanical and Industrial Engineering Section, Via della Vasca Navale 79, 00146 Rome, Italy)
- Alessandro Toscano
(Department of Engineering, Roma TRE University, Applied Electronics Section, Via Vito Volterra 62, 00146 Rome, Italy)
- Filiberto Bilotti
(Department of Engineering, Roma TRE University, Applied Electronics Section, Via Vito Volterra 62, 00146 Rome, Italy)
Abstract
This contribution aims at investigating the possibility to cloak a spherical object from an acoustic wave by applying the scattering cancellation approach. In electromagnetism, the scattering problem is treated using the Mie expansion technique, through which the scattered field by a spherical object can be represented as a superposition of TE and TM spherical harmonics. It is possible to extend this concept to the acoustic field by defining an analogous approach; the pressure field, generated by an elastic wave impinging on a spherical object, can be expressed applying the Mie expansion technique, as well. In acoustics, to achieve scattering suppression at a given frequency, the constitutive parameters to control are density and compressibility. By varying these parameter values, it is possible to define an engineered material with anomalous properties, which cannot be found in nature, able to reduce the scattering cross-section (SCS) from a spherical object. We propose a study about the effectiveness of the SCS reduction from an elastic sphere coated with a properly-designed acoustic metamaterial. The sensitivity of the SCS to parameter variations is analyzed for different coating thicknesses and sphere dimensions. Our analysis is supported by both the analytical modelling of the structure and numerical simulations.
Suggested Citation
Claudia Guattari & Paola Gori & Roberto De Lieto Vollaro & Luca Evangelisti & Gabriele Battista & Carmine Basilicata & Alessandro Toscano & Filiberto Bilotti, 2014.
"Robustness of Acoustic Scattering Cancellation to Parameter Variations,"
Sustainability, MDPI, vol. 6(7), pages 1-10, July.
Handle:
RePEc:gam:jsusta:v:6:y:2014:i:7:p:4416-4425:d:38227
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