Add to ORKGAn in-phase power divider as a feeding network for two-element antenna array for microwave hyperthermia treatment of brain tumor is presented. The proposed power divider is used for the simultaneous power distribution between two element antenna array, where equal amplitude and in-phase signals are required. It is designed using two pairs of coupled lines to achieve 100% fractional bandwidth. The antenna array is designed using corrugated tapered slot antennas to cover more than 100% fractional bandwidth. The whole structure is optimized using CST MWS. The performance of the power divider and the antenna array is analyzed by means of simulations across the band 1-3 GHz, which is used in most if not all microwave hyperthermia applications. T...
Focused microwave−hyperthermia therapy has recently emerged as a key technology in the treatment of ...
In this paper, effective electromagnetic (EM) focusing achieved with a phase compensation technique ...
Design, analysis and evaluation of a novel antenna applicator for microwave hyperthermia. The self-g...
Hyperthermia treatment is a medical treatment during which the temperature is raised in tumours for ...
A novel antenna applicator for microwave hyperthermia allowing treatment of deep brain tumors is pro...
In this paper we present a compact, wideband antenna to be used in an antenna applicator. This appli...
Interstitial antennas are useful for producing localized power as in the hyperthermia treatment of t...
Significant progress toward a functional 73 element, 730 watt, active microwave phased array has bee...
Medical hyperthermia refers to heating of tumors to temperature levels which are lethal to the cells...
Purpose: Currently available hyperthermia technology is not well suited to treating cancer malignanc...
Hyperthermia is one of the modalities for cancer treatment, utilizing the difference of thermal sens...
Current microwave hyperthermia applicators are not well suited for uniform heating of large tissue r...
Hyperthermia, increasing tumor temperatures to 40-43°C, is a proven oncological treatment enhancing ...
Hyperthermia is an emerging cancer treatment modality which involves applying heat to the malignant ...
An in-phase power divider with high power handling capability is presented. The proposed design is a...
Focused microwave−hyperthermia therapy has recently emerged as a key technology in the treatment of ...
In this paper, effective electromagnetic (EM) focusing achieved with a phase compensation technique ...
Design, analysis and evaluation of a novel antenna applicator for microwave hyperthermia. The self-g...
Hyperthermia treatment is a medical treatment during which the temperature is raised in tumours for ...
A novel antenna applicator for microwave hyperthermia allowing treatment of deep brain tumors is pro...
In this paper we present a compact, wideband antenna to be used in an antenna applicator. This appli...
Interstitial antennas are useful for producing localized power as in the hyperthermia treatment of t...
Significant progress toward a functional 73 element, 730 watt, active microwave phased array has bee...
Medical hyperthermia refers to heating of tumors to temperature levels which are lethal to the cells...
Purpose: Currently available hyperthermia technology is not well suited to treating cancer malignanc...
Hyperthermia is one of the modalities for cancer treatment, utilizing the difference of thermal sens...
Current microwave hyperthermia applicators are not well suited for uniform heating of large tissue r...
Hyperthermia, increasing tumor temperatures to 40-43°C, is a proven oncological treatment enhancing ...
Hyperthermia is an emerging cancer treatment modality which involves applying heat to the malignant ...
An in-phase power divider with high power handling capability is presented. The proposed design is a...
Focused microwave−hyperthermia therapy has recently emerged as a key technology in the treatment of ...
In this paper, effective electromagnetic (EM) focusing achieved with a phase compensation technique ...
Design, analysis and evaluation of a novel antenna applicator for microwave hyperthermia. The self-g...