Add to ORKGInvestigate the use of hop funnels with field emitter arrays (FEAs) as a method to improve FEA performance for use in various microwave vacuum electron devices (MVEDs)
A cylindrical magnetron using Field Emission Arrays (FEAs) is being modeled to determine whether su...
The effects of a temporally modulated, distributed cathode in a linear format crossed-field amplifie...
A new class of microwave and millimeter‐wave amplifiers, based on the deflection of collimated micro...
Electron hop funnels provide a method to integrate field emission arrays into microwave vacuum elect...
To integrate field emitter arrays (FEAs) into microwave vacuum electron devices, the use of insulati...
Electron hop funnels have shown the potential to allow the use of field emission arrays in microwave...
Electron hop funnels have been fabricated using a Low Temperature Co-Fired Ceramic (LTCC). Measureme...
Vacuum electron hop funnel devices can be used to collect and spatially average electron emission cu...
Electron hop funnels have been simulated using the new version of the particle trajectory simulation...
Insulating funnels, called electron hop funnels, use secondary electron emission and an electric fie...
A magnetron concept using field emission cathodes has been modeled with the Air Force Research Labor...
Current crossed-field amplifiers (CFAs) use a uniformly distributed electron beam, and in this work,...
The subject of vacuum microelectronics has grown dramatically in recent years since field emitter ar...
Field Emitter Arrays (FEAs) have become the basis of a new microelectronics technology which we have...
Contains reports on three research projects.Lincoln Laboratory, Purchase Order DDL B-00337U. S. Navy...
A cylindrical magnetron using Field Emission Arrays (FEAs) is being modeled to determine whether su...
The effects of a temporally modulated, distributed cathode in a linear format crossed-field amplifie...
A new class of microwave and millimeter‐wave amplifiers, based on the deflection of collimated micro...
Electron hop funnels provide a method to integrate field emission arrays into microwave vacuum elect...
To integrate field emitter arrays (FEAs) into microwave vacuum electron devices, the use of insulati...
Electron hop funnels have shown the potential to allow the use of field emission arrays in microwave...
Electron hop funnels have been fabricated using a Low Temperature Co-Fired Ceramic (LTCC). Measureme...
Vacuum electron hop funnel devices can be used to collect and spatially average electron emission cu...
Electron hop funnels have been simulated using the new version of the particle trajectory simulation...
Insulating funnels, called electron hop funnels, use secondary electron emission and an electric fie...
A magnetron concept using field emission cathodes has been modeled with the Air Force Research Labor...
Current crossed-field amplifiers (CFAs) use a uniformly distributed electron beam, and in this work,...
The subject of vacuum microelectronics has grown dramatically in recent years since field emitter ar...
Field Emitter Arrays (FEAs) have become the basis of a new microelectronics technology which we have...
Contains reports on three research projects.Lincoln Laboratory, Purchase Order DDL B-00337U. S. Navy...
A cylindrical magnetron using Field Emission Arrays (FEAs) is being modeled to determine whether su...
The effects of a temporally modulated, distributed cathode in a linear format crossed-field amplifie...
A new class of microwave and millimeter‐wave amplifiers, based on the deflection of collimated micro...