Add to ORKGThe subject of this work is optimization of outputs of L-band high power microwave tubes. These outputs are constructed as coaxial-to-waveguide transitions with a vacuum barrier in a form of glass or ceramic cup. The goal of optimization is to obtain sufficiently low reflection loss in the predefined frequency band and to avoid so called hot spots caused by excessive dissipation of microwave power in parts of the cup. Electromagnetic simulator has been applied to model the behavior of the optimized transition and to propose its optimum shape. The proposed solutions were verified by Z.E. Lamina SA in prototypes of high power (pulsed 600 kW) amplitrons and are to be used in manufacturing practice
This paper describes the Virtual Prototype of a Dielectric Window (DW) for High Power Microwave Vacu...
This paper describes the Virtual Prototype of a Dielectric Window (DW) for High Power Microwave Vacu...
This paper describes the Virtual Prototype of a Dielectric Window (DW) for High Power Microwave Vacu...
This thesis deals with the optimization techniques for the improvement of the microwave devices per...
This thesis deals with the optimization techniques for the improvement of the microwave devices per...
Abstract This paper presents the Multiphysics Analysis of a High-Power Microwave Window for a Ka-Ban...
This thesis deals with the optimization techniques for the improvement of the microwave devices per...
This paper presents the Multiphysics Analysis of a High- Power Microwave Window for a Ka-Band Klyst...
This paper presents the Multiphysics Analysis of a High- Power Microwave Window for a Ka-Band Klyst...
This paper presents the Multiphysics Analysis of a High- Power Microwave Window for a Ka-Band Klyst...
A new quasi-two-dimensional physical model is described for microwave LDMOS power transistors. This ...
This paper presents the Multiphysics Analysis of a High- Power Microwave Window for a Ka-Band Klyst...
This paper presents the Multiphysics Analysis of a High- Power Microwave Window for a Ka-Band Klyst...
The efficiency of a cavity microwave resonator using for getting large volume (more than 4000 cm3) l...
Contains research objectives and reports on four research projects.Department of the NavyDepartment ...
This paper describes the Virtual Prototype of a Dielectric Window (DW) for High Power Microwave Vacu...
This paper describes the Virtual Prototype of a Dielectric Window (DW) for High Power Microwave Vacu...
This paper describes the Virtual Prototype of a Dielectric Window (DW) for High Power Microwave Vacu...
This thesis deals with the optimization techniques for the improvement of the microwave devices per...
This thesis deals with the optimization techniques for the improvement of the microwave devices per...
Abstract This paper presents the Multiphysics Analysis of a High-Power Microwave Window for a Ka-Ban...
This thesis deals with the optimization techniques for the improvement of the microwave devices per...
This paper presents the Multiphysics Analysis of a High- Power Microwave Window for a Ka-Band Klyst...
This paper presents the Multiphysics Analysis of a High- Power Microwave Window for a Ka-Band Klyst...
This paper presents the Multiphysics Analysis of a High- Power Microwave Window for a Ka-Band Klyst...
A new quasi-two-dimensional physical model is described for microwave LDMOS power transistors. This ...
This paper presents the Multiphysics Analysis of a High- Power Microwave Window for a Ka-Band Klyst...
This paper presents the Multiphysics Analysis of a High- Power Microwave Window for a Ka-Band Klyst...
The efficiency of a cavity microwave resonator using for getting large volume (more than 4000 cm3) l...
Contains research objectives and reports on four research projects.Department of the NavyDepartment ...
This paper describes the Virtual Prototype of a Dielectric Window (DW) for High Power Microwave Vacu...
This paper describes the Virtual Prototype of a Dielectric Window (DW) for High Power Microwave Vacu...
This paper describes the Virtual Prototype of a Dielectric Window (DW) for High Power Microwave Vacu...