Add to ORKGThe performance investigation of two novel resonant elements is presented in this work for 5G reflectarray antenna design. Two dual resonance elements with wide reflection phase range have been developed from a square patch element by a novel corner bending tactic. The reflection loss and reflection phase range performance of the proposed elements have been compared with conventional square patch element at 26 GHz. The results have shown a reflection phase swing of 629° and 632° for Bent Width and Bent Length elements respectively. The broadband features of proposed elements can radically improve the bandwidth performance of a reflectarray antenna
A flat surface reflectarray antenna is becoming an impending competitor for fifth generation (5G) co...
Application demand for faster data rates is driving the need for wider operating bandwidth of future...
Reflectarray (RA) antennas are introduced as an alternative to the conventional parabolic reflectors...
The performance investigation of two novel resonant elements is presented in this work for 5G reflec...
A dual resonance reflectarray unit cell element has been proposed which evolved from a square patch ...
The narrow bandwidth and low gain performances of a reflectarray are generally improved at the cost ...
The performance analysis of reflectarray resonant elements based on Finite Integral Method is presen...
This paper presents an investigation for the performance comparison of three different unit cell con...
This paper presents an investigation for the performance comparison of three different unit cell con...
A physically asymmetric reflectarray element has been proposed for wide band operations. The dual re...
A physically asymmetric reflectarray element has been proposed for wide band operations. The dual re...
The future adaptability of reflectarray antenna requires a thorough investigation of its main conven...
The performance of a proposed cross hybrid dielectric resonator antenna (DRA) element for dual polar...
This article presents a novel, compact reflectarray antenna operating at 5 GHz. The array consists o...
An investigation of phase variation and phase range of concentric split ring square element for broa...
A flat surface reflectarray antenna is becoming an impending competitor for fifth generation (5G) co...
Application demand for faster data rates is driving the need for wider operating bandwidth of future...
Reflectarray (RA) antennas are introduced as an alternative to the conventional parabolic reflectors...
The performance investigation of two novel resonant elements is presented in this work for 5G reflec...
A dual resonance reflectarray unit cell element has been proposed which evolved from a square patch ...
The narrow bandwidth and low gain performances of a reflectarray are generally improved at the cost ...
The performance analysis of reflectarray resonant elements based on Finite Integral Method is presen...
This paper presents an investigation for the performance comparison of three different unit cell con...
This paper presents an investigation for the performance comparison of three different unit cell con...
A physically asymmetric reflectarray element has been proposed for wide band operations. The dual re...
A physically asymmetric reflectarray element has been proposed for wide band operations. The dual re...
The future adaptability of reflectarray antenna requires a thorough investigation of its main conven...
The performance of a proposed cross hybrid dielectric resonator antenna (DRA) element for dual polar...
This article presents a novel, compact reflectarray antenna operating at 5 GHz. The array consists o...
An investigation of phase variation and phase range of concentric split ring square element for broa...
A flat surface reflectarray antenna is becoming an impending competitor for fifth generation (5G) co...
Application demand for faster data rates is driving the need for wider operating bandwidth of future...
Reflectarray (RA) antennas are introduced as an alternative to the conventional parabolic reflectors...