Add to ORKGFermilab has developed a third harmonic superconducting cavity operating at the frequency of 3.9 GHz to improve the beam performance for the FLASH user facility at DESY. It is interesting to investigate the coupling interaction between the SRF cavity and the power coupler with or without beam loading. The coupling of the power coupler to the cavity needs to be determined to minimize the power consumption and guarantee the best performance for a given beam current. In this paper, we build and analyze an equivalent circuit model containing a series of lumped elements to represent the resonant system. An analytic solution of the required power from the generator as a function of the system parameters has also been given based on a vector diagr...
The XFEL facilities are planning to use a section with several third harmonic cavities (3.9 GHz) to ...
Fundamental power couplers for RF particle accelerators are the most important components that inter...
The mechanical development of the 3.9 GHz, 3rd Harmonic SRF System is summarized to include: the dev...
The FLASH user facility providing free electron laser radiation is built based on the TTF project at...
3.9 GHz third harmonic superconducting cavities have been used to increase the peak bunch current an...
A 3.9 GHz third harmonic Superconducting RF (SRF) system was proposed to increase the peak bunch cur...
The XFEL and TTF facilities are planning to use section with a few third harmonic cavities (3.9GHz) ...
Superconducting cavity resonators offer the advantage of high field intensity for a given input powe...
The 3rd harmonic 3.9GHz accelerating cavity was proposed to improve the beam performance of the FLAS...
Fundamental power couplers for RF particle accelerators are the most important components that inter...
Fundamental power couplers for RF particle accelerators are the most important components that inter...
Third harmonic cavities have been designed and fabricated by FNAL to be used at the FLASH/XFEL facil...
The 3rd harmonic 3.9GHz accelerating cavity was proposed to improve the beam performance of the VUV ...
Fermilab is involved in an effort to assemble 3.9 GHz superconducting RF cavities into a four cavity...
The beam excited 56 MHz SRF cavity will have a power coupler for a fast frequency tuner. The calcula...
The XFEL facilities are planning to use a section with several third harmonic cavities (3.9 GHz) to ...
Fundamental power couplers for RF particle accelerators are the most important components that inter...
The mechanical development of the 3.9 GHz, 3rd Harmonic SRF System is summarized to include: the dev...
The FLASH user facility providing free electron laser radiation is built based on the TTF project at...
3.9 GHz third harmonic superconducting cavities have been used to increase the peak bunch current an...
A 3.9 GHz third harmonic Superconducting RF (SRF) system was proposed to increase the peak bunch cur...
The XFEL and TTF facilities are planning to use section with a few third harmonic cavities (3.9GHz) ...
Superconducting cavity resonators offer the advantage of high field intensity for a given input powe...
The 3rd harmonic 3.9GHz accelerating cavity was proposed to improve the beam performance of the FLAS...
Fundamental power couplers for RF particle accelerators are the most important components that inter...
Fundamental power couplers for RF particle accelerators are the most important components that inter...
Third harmonic cavities have been designed and fabricated by FNAL to be used at the FLASH/XFEL facil...
The 3rd harmonic 3.9GHz accelerating cavity was proposed to improve the beam performance of the VUV ...
Fermilab is involved in an effort to assemble 3.9 GHz superconducting RF cavities into a four cavity...
The beam excited 56 MHz SRF cavity will have a power coupler for a fast frequency tuner. The calcula...
The XFEL facilities are planning to use a section with several third harmonic cavities (3.9 GHz) to ...
Fundamental power couplers for RF particle accelerators are the most important components that inter...
The mechanical development of the 3.9 GHz, 3rd Harmonic SRF System is summarized to include: the dev...