Comparison between Specialized Quadrature Rules for Method of Moments with NURBS Modelling Applied to Periodic Multilayer Structures

Florencio, Rafael; Somolinos, Álvaro; Gónzalez, Iván; Cátedra, M.F.; Lozano, Lorena

doi:10.3390/electronics9122043

Cited by 2 publications

(2 citation statements)

References 36 publications

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“…MoM has been traditionally applied in the study of wire and planar antennas [36][37][38] as well as in singlelayer reflectarray/transmitarray configurations [39]. These works were then extended to include planar multilayered (2.5-D) devices [40][41][42][43]. However, it is not so common to find actual 3-D implementations with the MoM, which is a difference from full-wave numerical methods.…”

Section: Integral-equation Methodsmentioning

confidence: 99%

3-D Metamaterials: Trends on Applied Designs, Computational Methods and Fabrication Techniques

2022

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Metamaterials are artificially engineered devices that go beyond the properties of conventional materials in nature. Metamaterials allow for the creation of negative refractive indexes; light trapping with epsilon-near-zero compounds; bandgap selection; superconductivity phenomena; non-Hermitian responses; and more generally, manipulation of the propagation of electromagnetic and acoustic waves. In the past, low computational resources and the lack of proper manufacturing techniques have limited attention towards 1-D and 2-D metamaterials. However, the true potential of metamaterials is ultimately reached in 3-D configurations, when the degrees of freedom associated with the propagating direction are fully exploited in design. This is expected to lead to a new era in the field of metamaterials, from which future high-speed and low-latency communication networks can benefit. Here, a comprehensive overview of the past, present, and future trends related to 3-D metamaterial devices is presented, focusing on efficient computational methods, innovative designs, and functional manufacturing techniques.

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Section: Integral-equation Methodsmentioning

confidence: 99%

3-D Metamaterials: Trends on Applied Designs, Computational Methods and Fabrication Techniques

2022

View full text Add to dashboard Cite

show abstract

“…MoM has been traditionally applied in the study of wire and planar antennas [34,35], as well as in single-layer reflectarray/transmitarray configurations [36]. These works were then extended to include planar multilayered (2.5-D) devices [37][38][39][40]. However, it is not so common to find actual 3-D implementations with the MoM, as a difference with full-wave numerical methods.…”

Section: Integral-equation Methodsmentioning

confidence: 99%

3-D Metamaterials: Trends on Applied Designs, Computational Methods and Fabrication Techniques

Alex-Amor,

Palomares-Caballero,

Molero

2021

Preprint

View full text Add to dashboard Cite

Metamaterials are artificially engineered devices that go beyond the properties of conventional materials in nature. Metamaterials allow the creation of negative refractive indexes, light trapping with epsilon-nearzero compounds, bandgap selection, superconductivity phenomena, non-Hermitian responses and, more generally, to manipulate the propagation of electromagnetic and acoustic waves. In the past, low computational resources and the lack of proper manufacturing techniques have limited the attention to 1-D and 2-D metamaterials. However, the true potential of metamaterials will be ultimately reached in 3-D configurations, when the degrees of freedom associated to the propagating direction are finally exploited in design. This is expected to lead to a new era in metamaterial field, from which future high-speed and low-latency communication networks can benefit. Here, a comprehensive overview of the past, present and future trends related to 3-D metamaterial devices is presented, focusing on efficient computational methods, innovative designs and functional manufacturing techniques.

show abstract

Comparison between Specialized Quadrature Rules for Method of Moments with NURBS Modelling Applied to Periodic Multilayer Structures

Cited by 2 publications

References 36 publications

3-D Metamaterials: Trends on Applied Designs, Computational Methods and Fabrication Techniques

3-D Metamaterials: Trends on Applied Designs, Computational Methods and Fabrication Techniques

3-D Metamaterials: Trends on Applied Designs, Computational Methods and Fabrication Techniques

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