Add to ORKGWe report on design, fabrication, and beam test of a 7.8GHz power extractor recently conducted at the Argonne Wakefield Accelerator (AWA) facility. The wakefields are excited using an electron beam travels through a dielectric loaded waveguide, and the generated RF power is then subsequently extracted with a properly designed RF coupler. In the experiment, 30MW of output power is excited by a 66nC single electron bunch, and wakefield superposition by a train consisting of four bunches is also demonstrated. Both results agree very well with theoretical predictions. Future tests include more charge transmission for higher RF power, and more bunches in a train for longer RF pulses
The Argonne Wakefield Accelerator has been successfully used for conducting wakefield experiments in...
This paper reports the wakefield effects driven by a high-intensity relativistic electron bunch in a...
We report on the design of a seven-cell, standing-wave, 1.3-GHz rf cavity and the associated beam dy...
We report on the design and beam tests of a 7.8GHz power extractor recently conducted at the Argonne...
Dielectric-loaded power extraction is a method for the generation of high-power radio frequency (rf)...
High frequency, high power rf sources are needed for many applications in particle accelerators, com...
Power extraction with a drive particle beam is a promising approach for high power RF source develop...
An X-band dielectric-based wakefield power extractor is under development to function as a high powe...
Dielectric loaded wakefield structures have potential to be used as high gradient accelerator compon...
The Argonne Wakefield Accelerator group develops accelerating structures based on dielectric loaded ...
In the past decade, tremendous efforts have been put into the development of the CLIC Power Extracti...
The Argonne Wakefield Accelerator (AWA) is a facility designed to investigate high gradient wakefiel...
The design, construction, and bench testing of an X-band travelling-wave accelerating structure load...
The design, construction, and bench testing of an X-band travelling-wave accelerating structure load...
A joint Argonne National Laboratory (ANL)/Naval Research Laboratory (NRL) program is under way to in...
The Argonne Wakefield Accelerator has been successfully used for conducting wakefield experiments in...
This paper reports the wakefield effects driven by a high-intensity relativistic electron bunch in a...
We report on the design of a seven-cell, standing-wave, 1.3-GHz rf cavity and the associated beam dy...
We report on the design and beam tests of a 7.8GHz power extractor recently conducted at the Argonne...
Dielectric-loaded power extraction is a method for the generation of high-power radio frequency (rf)...
High frequency, high power rf sources are needed for many applications in particle accelerators, com...
Power extraction with a drive particle beam is a promising approach for high power RF source develop...
An X-band dielectric-based wakefield power extractor is under development to function as a high powe...
Dielectric loaded wakefield structures have potential to be used as high gradient accelerator compon...
The Argonne Wakefield Accelerator group develops accelerating structures based on dielectric loaded ...
In the past decade, tremendous efforts have been put into the development of the CLIC Power Extracti...
The Argonne Wakefield Accelerator (AWA) is a facility designed to investigate high gradient wakefiel...
The design, construction, and bench testing of an X-band travelling-wave accelerating structure load...
The design, construction, and bench testing of an X-band travelling-wave accelerating structure load...
A joint Argonne National Laboratory (ANL)/Naval Research Laboratory (NRL) program is under way to in...
The Argonne Wakefield Accelerator has been successfully used for conducting wakefield experiments in...
This paper reports the wakefield effects driven by a high-intensity relativistic electron bunch in a...
We report on the design of a seven-cell, standing-wave, 1.3-GHz rf cavity and the associated beam dy...