Add to ORKGQuasi-optical power-combining offers the most promising method for extracting large amounts of power from solid-state devices in the microwave and millimeter-wave range. This technique can be applied to a variety of devices. The difficulties associated with traditional waveguides power-combiners such as skin-effect losses are eliminated because the signals are combined in free-space. The solid-state devices are embedded in a two-dimensional grid configuration and placed in a Fabry-Perot cavity. In this respect, the quasi-optical power-combiner is analogous to a laser oscillator in which the active medium of the laser is replaced with an array of active devices. The grid presents a reflection coefficient to an incident plane wave which is la...
Power-combining schemes involving planar grids of solid-state devices quasi-optically coupled in fre...
A detailed and timely overview of recent developments in active quasi-optical arrays In recent years...
Due to congestion in the low microwave frequency bands new commercial and military applications are ...
Quasi-optical power-combining offers the most promising method for extracting large amounts of power...
Solid-state devices that produce radiation in the microwave and millimeter-wave region of the electr...
Semiconductor devices have limited power handling capabilities at high frequencies, particularly at ...
This article surveys recent progress in the development of high-power microwave and millimeter-wave ...
In the microwave and millimeter-wave frequency range, solid-state oscillators have limited output po...
Abstract—Quasi-optical power-combining techniques have been developed to address fundamental limitat...
Loading a two-dimensional grid with active devices offers a means of combining the power of solid-st...
The authors have proposed that the increasing demand for contact watt-level coherent sources in the ...
A method for quasi-optically combining the output power of MESFETs in which drain and source leads c...
Investigation of a power combiner made of two FET oscillators for an active array are reported. As a...
A 100-MESFET oscillator which gives 21 W of CW effective radiated power (ERP) with a 16-dB directivi...
Grid oscillators are an attractive way of obtaining high power levels from the solid-state devices, ...
Power-combining schemes involving planar grids of solid-state devices quasi-optically coupled in fre...
A detailed and timely overview of recent developments in active quasi-optical arrays In recent years...
Due to congestion in the low microwave frequency bands new commercial and military applications are ...
Quasi-optical power-combining offers the most promising method for extracting large amounts of power...
Solid-state devices that produce radiation in the microwave and millimeter-wave region of the electr...
Semiconductor devices have limited power handling capabilities at high frequencies, particularly at ...
This article surveys recent progress in the development of high-power microwave and millimeter-wave ...
In the microwave and millimeter-wave frequency range, solid-state oscillators have limited output po...
Abstract—Quasi-optical power-combining techniques have been developed to address fundamental limitat...
Loading a two-dimensional grid with active devices offers a means of combining the power of solid-st...
The authors have proposed that the increasing demand for contact watt-level coherent sources in the ...
A method for quasi-optically combining the output power of MESFETs in which drain and source leads c...
Investigation of a power combiner made of two FET oscillators for an active array are reported. As a...
A 100-MESFET oscillator which gives 21 W of CW effective radiated power (ERP) with a 16-dB directivi...
Grid oscillators are an attractive way of obtaining high power levels from the solid-state devices, ...
Power-combining schemes involving planar grids of solid-state devices quasi-optically coupled in fre...
A detailed and timely overview of recent developments in active quasi-optical arrays In recent years...
Due to congestion in the low microwave frequency bands new commercial and military applications are ...