SRF2011 - List of Authors (Yasuda, F.)

Paper

Title

Page

Development of the Demountable Damped Cavity

172

T. Konomi
Sokendai, Ibaraki, Japan
F. Furuta, K. Saito
KEK, Ibaraki, Japan
F. Yasuda
The University of Tokyo, Institute of Physics, Tokyo, Japan

We have designed a new HOM free cavity named Demountable Damped Cavity (DDC) as an ILC R&D. DDC has two design concepts. The first one is an axial symmetry to eliminate kick off effect by HOM coupler itself. DDC is applied coaxial structure along the beam axis to make strong coupling with HOM. HOM is damped on RF absorber at the end of coaxial waveguide and the accelerating mode is reflected by the choke filter mounted on the entrance of coaxial waveguide. The second concept is demountable structure which can make cleaning of end group easy in order to suppress the Q-slope problem at high field. MO sealing will be applied for the demountable joint. We have simulated the HOM damper structure, thermal structure, and the multipacting phenomena on single DDC. We have also simulated how DDC works on ICHIRO 9-cell cavity. Now we are fabricating single DDC. Cold test is also planned. In this paper, we will present the results of them.

THPO013

Investigation of 9-Cell Cavity Performance Problem by Facilities in KEK AR East 2nd Experimental Hall

733

K. Saito, F. Furuta
KEK, Ibaraki, Japan
T. Konomi
Sokendai, Ibaraki, Japan
F. Yasuda
The University of Tokyo, Institute of Physics, Tokyo, Japan

So far our 9-cell cavity performance is often suffered from field emission. We are investigating our facilities at the KEK AR East 2nd experimental hall. We examined two points of view post EP/BCP cleaning and particle contamination. Particle contamination problem has been found in our HPR system, cavity assembly, and vacuum evacuation procedure. We have taken cures against these problems. We will report about these problems and the cured results on cavity performance in this paper.

Poster THPO013 [3.259 MB]

Paper	Title	Page
MOPO038	Development of the Demountable Damped Cavity	172
	T. Konomi Sokendai, Ibaraki, Japan F. Furuta, K. Saito KEK, Ibaraki, Japan F. Yasuda The University of Tokyo, Institute of Physics, Tokyo, Japan
	We have designed a new HOM free cavity named Demountable Damped Cavity (DDC) as an ILC R&D. DDC has two design concepts. The first one is an axial symmetry to eliminate kick off effect by HOM coupler itself. DDC is applied coaxial structure along the beam axis to make strong coupling with HOM. HOM is damped on RF absorber at the end of coaxial waveguide and the accelerating mode is reflected by the choke filter mounted on the entrance of coaxial waveguide. The second concept is demountable structure which can make cleaning of end group easy in order to suppress the Q-slope problem at high field. MO sealing will be applied for the demountable joint. We have simulated the HOM damper structure, thermal structure, and the multipacting phenomena on single DDC. We have also simulated how DDC works on ICHIRO 9-cell cavity. Now we are fabricating single DDC. Cold test is also planned. In this paper, we will present the results of them.

THPO013	Investigation of 9-Cell Cavity Performance Problem by Facilities in KEK AR East 2nd Experimental Hall	733
	K. Saito, F. Furuta KEK, Ibaraki, Japan T. Konomi Sokendai, Ibaraki, Japan F. Yasuda The University of Tokyo, Institute of Physics, Tokyo, Japan
	So far our 9-cell cavity performance is often suffered from field emission. We are investigating our facilities at the KEK AR East 2nd experimental hall. We examined two points of view post EP/BCP cleaning and particle contamination. Particle contamination problem has been found in our HPR system, cavity assembly, and vacuum evacuation procedure. We have taken cures against these problems. We will report about these problems and the cured results on cavity performance in this paper.
	Poster THPO013 [3.259 MB]