Add to ORKGBeam loading effects on rf system is one of the most diffi-cult parts of high intensity proton synchrotrons. To inves-tigate the effects, beam loading test experiment using an intense electron beam has been carried out. The wake volt-ages induced by an actual electron beam have been mea-sured at an accelerating gap of an rf cavity. The electron beam used in the experiments was modulated with the fre-quency of about 3 MHz and the pulse width can be variable in due consideration of the circulating beam of the JHF syn-chrotrons. The maximum beam current is about 9 A. The beam loading compensation also has been tried.
This work has been done in the frame of ESS collabora-tion. The high intensity proton beam with 60 m...
The UNK accelerating structure consists of two non-tuned single-cell 200 MHz cavities linked togethe...
For the projected Facility for Antiproton and Ion Research (FAIR) at GSI the upgraded, existing sync...
Beam loading effects on the rf system of JHF proton syn-chrotrons have been investigated by both com...
Beam loading effects on the rf system of JHF proton synchrotrons have been investigated by both comp...
For high-intensity electron linacs, one of the noble schemes to obtain a sufficient intensity is to ...
For the high-intensity electron linacs, one of the noble schemes to get a sufficient intensity is to...
Beam loading of the radio-frequency (rf) accelerating cavities is an important consideration in the ...
In a high intensity proton synchrotron, the wall current induced by the beam in an RF cavity can not...
The AGS has been upgraded over the past three years to produce a record beam intensity of 6 {times} ...
Beam loading compensation is a key for acceleration of a high intensity proton beam in the main ring...
In the framework of the LHC Injectors Upgrade project (LIU), a complete replacement of the existing ...
A series of experiments on the beam-beam effect has been performed at the CERN Intersecting Storage ...
The influence of an intense beam in a high-pressure gas filled RF cavity has been measured by using ...
Radio-frequency (RF) systems in particle accelerators are usually designed to transfer energy to the...
This work has been done in the frame of ESS collabora-tion. The high intensity proton beam with 60 m...
The UNK accelerating structure consists of two non-tuned single-cell 200 MHz cavities linked togethe...
For the projected Facility for Antiproton and Ion Research (FAIR) at GSI the upgraded, existing sync...
Beam loading effects on the rf system of JHF proton syn-chrotrons have been investigated by both com...
Beam loading effects on the rf system of JHF proton synchrotrons have been investigated by both comp...
For high-intensity electron linacs, one of the noble schemes to obtain a sufficient intensity is to ...
For the high-intensity electron linacs, one of the noble schemes to get a sufficient intensity is to...
Beam loading of the radio-frequency (rf) accelerating cavities is an important consideration in the ...
In a high intensity proton synchrotron, the wall current induced by the beam in an RF cavity can not...
The AGS has been upgraded over the past three years to produce a record beam intensity of 6 {times} ...
Beam loading compensation is a key for acceleration of a high intensity proton beam in the main ring...
In the framework of the LHC Injectors Upgrade project (LIU), a complete replacement of the existing ...
A series of experiments on the beam-beam effect has been performed at the CERN Intersecting Storage ...
The influence of an intense beam in a high-pressure gas filled RF cavity has been measured by using ...
Radio-frequency (RF) systems in particle accelerators are usually designed to transfer energy to the...
This work has been done in the frame of ESS collabora-tion. The high intensity proton beam with 60 m...
The UNK accelerating structure consists of two non-tuned single-cell 200 MHz cavities linked togethe...
For the projected Facility for Antiproton and Ion Research (FAIR) at GSI the upgraded, existing sync...