Add to ORKGElectron linacs have been widely used in medical applications. Most of these linacs use S-Band (about 3 GHz) microwave technologies. Recently, however, several new ideas in radiation therapy have been proposed that require new, higher power, higher gradient accelerators. In this paper, we propose the application of C-Band (5 to 7 GHz) technology for radiation therapy. Also, we describe the possible design of a new standing wave accelerator structure and R&D of C-Band technology in KEK.
Purpose: Recently, high-precision radiotherapy systems have been developed by integrating computeriz...
C-band (5712-MHz) RF-system hardware R&D for an e+e- linear collider started in 1996 at KEK. We ...
RF photo-injectors are widely used in modern facilities, especially in FEL, as very low-emittance an...
Hardware R&D on the C-band (5712 MHz) RF-system for an electron/positron linear collider started...
C-band low-energy electron linear accelerators are preferable for applications which require compact...
The majority of medical accelerators for radiation therapy use frequencies in the S-band range. Havi...
The FLASH Radiotherapy is a revolutionary new tech-nique in the cancer cure: it spares healthy tissu...
In an extensive luminosity upgrade of the KEK-B fac-tory, considered as a future plan, the injector ...
Proton therapy is a rapidly developing technique for tumour treatment, thanks to the physical and do...
In the last years, many developments have contributed to make feasible an all linac solution for pro...
A hardware R&D for the C-band (5712 MHz) rf system for a linear collider started in 1996 at KEK....
A hardware R&D for the C-band (5712 MHz) rf system for a linear collider started in 1996 at KEK....
Monochromatic hard X-ray inspection device based on Compton scattering effect between electron and l...
In a future luminosity upgrade from the present KEK-B factory to the SuperKEKB, the injector linac i...
In a future luminosity upgrade from the present KEK-B factory to the SuperKEKB, the injector linac i...
Purpose: Recently, high-precision radiotherapy systems have been developed by integrating computeriz...
C-band (5712-MHz) RF-system hardware R&D for an e+e- linear collider started in 1996 at KEK. We ...
RF photo-injectors are widely used in modern facilities, especially in FEL, as very low-emittance an...
Hardware R&D on the C-band (5712 MHz) RF-system for an electron/positron linear collider started...
C-band low-energy electron linear accelerators are preferable for applications which require compact...
The majority of medical accelerators for radiation therapy use frequencies in the S-band range. Havi...
The FLASH Radiotherapy is a revolutionary new tech-nique in the cancer cure: it spares healthy tissu...
In an extensive luminosity upgrade of the KEK-B fac-tory, considered as a future plan, the injector ...
Proton therapy is a rapidly developing technique for tumour treatment, thanks to the physical and do...
In the last years, many developments have contributed to make feasible an all linac solution for pro...
A hardware R&D for the C-band (5712 MHz) rf system for a linear collider started in 1996 at KEK....
A hardware R&D for the C-band (5712 MHz) rf system for a linear collider started in 1996 at KEK....
Monochromatic hard X-ray inspection device based on Compton scattering effect between electron and l...
In a future luminosity upgrade from the present KEK-B factory to the SuperKEKB, the injector linac i...
In a future luminosity upgrade from the present KEK-B factory to the SuperKEKB, the injector linac i...
Purpose: Recently, high-precision radiotherapy systems have been developed by integrating computeriz...
C-band (5712-MHz) RF-system hardware R&D for an e+e- linear collider started in 1996 at KEK. We ...
RF photo-injectors are widely used in modern facilities, especially in FEL, as very low-emittance an...