A topology optimization method for phononic crystals is developed for the design of sound barriers, using the level set approach. Given a frequency and an incident wave to the phononic crystals, an optimal shape of periodic inclusions is found by minimizing the norm of transmittance. In a sound field including scattering bodies, an acoustic wave can be refracted on the obstacle boundaries, which enables to control acoustic performance by taking the shape of inclusions as the design variables. In this research, we consider a layered structure which is composed of inclusions arranged periodically in horizontal direction while finite inclusions are distributed in vertical direction. Due to the periodicity of inclusions, a unit cell can be cons...
This paper systematically investigated the topological design of cellular phononic crystals with a m...
This study presents a topology optimization scheme for realizing a bound state in the continuum alon...
The paper describes a novel methodology of designing granular phononic crystals for acoustic wave ma...
Phononic crystals can be designed to have bandgaps---ranges of frequencies whose propagation through...
Phononic band gap crystals are made of periodic inclusions embedded in a base material, which can fo...
Topology optimization is used to design phononic bandgap materials that are tunable by mechanical de...
Phononic band gap crystals, which could prohibit the propagations of elastic waves in c...
This paper aims to develop a level-set-based topology optimization approach for the design of negati...
The propagation of evanescent waves inside phononic band gaps is important for the design of phononi...
International audienceWe systematically engineer a series of square and rectangular phononic crystal...
International audienceWe use square and rectangular phononic crystals to create experimental realiza...
During the past decade, materials that display novel properties in the acoustic realm, so-called aco...
We theoretically construct a rectangular phononic crystal (PC) structure surrounded by water with C-...
Much effort has been made to experimentally fabricate acoustic metamaterials that display novel prop...
This paper systematically investigated the topological design of cellular phononic crystals with a m...
This paper systematically investigated the topological design of cellular phononic crystals with a m...
This study presents a topology optimization scheme for realizing a bound state in the continuum alon...
The paper describes a novel methodology of designing granular phononic crystals for acoustic wave ma...
Phononic crystals can be designed to have bandgaps---ranges of frequencies whose propagation through...
Phononic band gap crystals are made of periodic inclusions embedded in a base material, which can fo...
Topology optimization is used to design phononic bandgap materials that are tunable by mechanical de...
Phononic band gap crystals, which could prohibit the propagations of elastic waves in c...
This paper aims to develop a level-set-based topology optimization approach for the design of negati...
The propagation of evanescent waves inside phononic band gaps is important for the design of phononi...
International audienceWe systematically engineer a series of square and rectangular phononic crystal...
International audienceWe use square and rectangular phononic crystals to create experimental realiza...
During the past decade, materials that display novel properties in the acoustic realm, so-called aco...
We theoretically construct a rectangular phononic crystal (PC) structure surrounded by water with C-...
Much effort has been made to experimentally fabricate acoustic metamaterials that display novel prop...
This paper systematically investigated the topological design of cellular phononic crystals with a m...
This paper systematically investigated the topological design of cellular phononic crystals with a m...
This study presents a topology optimization scheme for realizing a bound state in the continuum alon...
The paper describes a novel methodology of designing granular phononic crystals for acoustic wave ma...