Add to ORKGThere is increasing demand for compact watt-level coherent sources in the millimeter and submillimeter wave region. The approach that we have taken to satisfy this need is to fabricate two-dimensional grids loaded with oscillators, electronic beam steerers, and frequency multipliers for quasioptical coherent spatial combining of the outputs of a large number of low-power devices
Investigation of a power combiner made of two FET oscillators for an active array are reported. As a...
In this paper, we present our latest works on developing the various generic technologies to find th...
Abstract—Quasi-optical power-combining techniques have been developed to address fundamental limitat...
Abstract-There is an increasing demand for compact watt-level CO-herent sources in the millimeter- a...
Solid-state devices that produce radiation in the microwave and millimeter-wave region of the electr...
Spatial Power Combining is an enabling technology for achieving useful power levels from solid state...
This article surveys recent progress in the development of high-power microwave and millimeter-wave ...
Quasi-optical power-combining offers the most promising method for extracting large amounts of power...
Power-combining schemes involving planar grids of solid-state devices quasi-optically coupled in fre...
In the microwave and millimeter-wave frequency range, solid-state oscillators have limited output po...
s the operating frequency of semiconductor solid-state devices increases into the millimeter-wave re...
At millimeter and sub-millimeter-wave frequencies individual solid-state devices have a limited abil...
This paper outlines the design characterization and electromagnetic performance of a millimeter-wav...
Significant progress has been made in solid-state spatial power combining under recent DARPA and ARO...
Theoretical and experimental studies into monolithic millimeter-wave and picosecond electronic techn...
Investigation of a power combiner made of two FET oscillators for an active array are reported. As a...
In this paper, we present our latest works on developing the various generic technologies to find th...
Abstract—Quasi-optical power-combining techniques have been developed to address fundamental limitat...
Abstract-There is an increasing demand for compact watt-level CO-herent sources in the millimeter- a...
Solid-state devices that produce radiation in the microwave and millimeter-wave region of the electr...
Spatial Power Combining is an enabling technology for achieving useful power levels from solid state...
This article surveys recent progress in the development of high-power microwave and millimeter-wave ...
Quasi-optical power-combining offers the most promising method for extracting large amounts of power...
Power-combining schemes involving planar grids of solid-state devices quasi-optically coupled in fre...
In the microwave and millimeter-wave frequency range, solid-state oscillators have limited output po...
s the operating frequency of semiconductor solid-state devices increases into the millimeter-wave re...
At millimeter and sub-millimeter-wave frequencies individual solid-state devices have a limited abil...
This paper outlines the design characterization and electromagnetic performance of a millimeter-wav...
Significant progress has been made in solid-state spatial power combining under recent DARPA and ARO...
Theoretical and experimental studies into monolithic millimeter-wave and picosecond electronic techn...
Investigation of a power combiner made of two FET oscillators for an active array are reported. As a...
In this paper, we present our latest works on developing the various generic technologies to find th...
Abstract—Quasi-optical power-combining techniques have been developed to address fundamental limitat...