finite integration technique Latest Research Papers

Superlens imaging has been known as one of the most intriguing applications of metamaterials due to its capability of sub-wavelength imaging. In this report, we numerically demonstrate the possibility to make an amplifying superlens, which can focus and consequently enhance electromagnetic signals emitted at GHz frequencies. Simulations using the finite integration technique are performed to explore the amplifying mechanism of the proposed superlens. It is found that the focused signals can be considerably intensified at a selected position. The results show potential uses of metamaterial superlenses for future wireless energy transfer devices and novel energy harvesting applications.

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Optimization of elastodynamic finite integration technique on Intel Xeon Phi Knights Landing processors

Journal of Computational Physics ◽

10.1016/j.jcp.2018.07.049 ◽

2018 ◽

Vol 374 ◽

pp. 550-562 ◽

Cited By ~ 3

Author(s):

William C. Schneck ◽

Elizabeth D. Gregory ◽

Cara A.C. Leckey

Keyword(s):

Xeon Phi ◽

Intel Xeon Phi ◽

Integration Technique ◽

Finite Integration Technique ◽

Knights Landing ◽

Intel Xeon

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finite integration technique
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Field-Circuit Coupling and Electromagnetic-Thermal-Mechanical Coupling Analysis of the Single-Stage Fast Linear Transformer Driver by Using Time-Domain Finite Integration Technique

Elastodynamic Finite Integration Technique

Transient Electromagnetic Field Analysis for the Single-Stage Fast Linear Transformer Driver With Two Different Configurations Using the Finite-Element Method and Finite Integration Technique

A Finite Integration Technique-Based Simulation Study on the Impact of the Sternotomy Wires on the UWB Channel Characteristics

Investigating the applicability of the finite integration technique for studying the frequency response of the transformer winding

State of the Art Simulation of Electromagnetic Fields in Time Domain using the Finite Integration Technique

Proper Generalized Decomposition of Parameterized Electrothermal Problems Discretized by the Finite Integration Technique

Application of Elastodynamic Finite Integration Technique (EFIT) to three-dimensional wave propagation and scattering in arbitrary geometries

MICROWAVE METAMATERIAL-BASED SUPERLENS FOR ENERGY HARVESTING APPLICATIONS

Optimization of elastodynamic finite integration technique on Intel Xeon Phi Knights Landing processors

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finite integration techniqueRecently Published Documents

TOTAL DOCUMENTS

H-INDEX

Field-Circuit Coupling and Electromagnetic-Thermal-Mechanical Coupling Analysis of the Single-Stage Fast Linear Transformer Driver by Using Time-Domain Finite Integration Technique

Elastodynamic Finite Integration Technique

Transient Electromagnetic Field Analysis for the Single-Stage Fast Linear Transformer Driver With Two Different Configurations Using the Finite-Element Method and Finite Integration Technique

A Finite Integration Technique-Based Simulation Study on the Impact of the Sternotomy Wires on the UWB Channel Characteristics

Investigating the applicability of the finite integration technique for studying the frequency response of the transformer winding

State of the Art Simulation of Electromagnetic Fields in Time Domain using the Finite Integration Technique

Proper Generalized Decomposition of Parameterized Electrothermal Problems Discretized by the Finite Integration Technique

Application of Elastodynamic Finite Integration Technique (EFIT) to three-dimensional wave propagation and scattering in arbitrary geometries

MICROWAVE METAMATERIAL-BASED SUPERLENS FOR ENERGY HARVESTING APPLICATIONS

Optimization of elastodynamic finite integration technique on Intel Xeon Phi Knights Landing processors

finite integration technique
Recently Published Documents