Add to ORKGAn SRF photoinjector has been successfully tested in FZD under the collaboration of BESSY, DESY, FZD, and MBI. In order to improve the gun cavity quality and thus reach a higher gradient, a new 3+1/2 superconducting cavity is being fabricated in cooperation with JLab. The modified cavity is made of large grain niobium, composed of one filter choke, one special designed half-cell (gun-cell) and three TESLA cavities. In this paper, the main updates of the new cavity design will be explained in detail. The deformation of the filter choke and the gun-cell, which is caused by pressure fluctuation in the He-line and also by the effect of the Lorentz force, will be minimized by stiffening between the filter choke and the gun-cell. Meanwhile, the c...
As an amendment to a CRADA Cooperative Research and Development Agreement between Forschungszentru...
Since 2009 a series of eight nine-cell cavities (AC151 – AC158) of TESLA shape fabricated of large g...
In this contribution, we report progress on the development of a hybrid lead/niobium superconducting...
We have developed a new compact high average current dc superconducting rf (DC-SRF) photoinjector. A...
We have developed a new compact high average current dc superconducting rf (DC-SRF) photoinjector. A...
The superconducting radio frequency photoinjector (SRF photoinjector) with Cs2Te cathode has been su...
SRF Gun Cavity is an ongoing accelerator R&D Project at DESY, being developed since several years. C...
As a result of collaboration between Jefferson Lab and niobium manufacturer Companhia Brasileira de ...
The accelerating gradient performance of superconducting niobium cavities is rapidly progressing as ...
The accelerating gradient performance of superconducting niobium cavities is rapidly progressing as ...
As part of a CRADA (Cooperative Research and Development Agreement) between Helmholtz-Zentrum Dresde...
A status report of the superconducting RF photo elec-tron injector development at Forschungszentrum ...
We report on the recent progress at Jefferson Lab in developing ultra high gradient and high Q{sub 0...
As part of a CRADA (Cooperative Research and Development Agreement) between Helmholtz-Zentrum Dresde...
Superconducting cavity technology has made major progresses in the last decade with the introduction...
As an amendment to a CRADA Cooperative Research and Development Agreement between Forschungszentru...
Since 2009 a series of eight nine-cell cavities (AC151 – AC158) of TESLA shape fabricated of large g...
In this contribution, we report progress on the development of a hybrid lead/niobium superconducting...
We have developed a new compact high average current dc superconducting rf (DC-SRF) photoinjector. A...
We have developed a new compact high average current dc superconducting rf (DC-SRF) photoinjector. A...
The superconducting radio frequency photoinjector (SRF photoinjector) with Cs2Te cathode has been su...
SRF Gun Cavity is an ongoing accelerator R&D Project at DESY, being developed since several years. C...
As a result of collaboration between Jefferson Lab and niobium manufacturer Companhia Brasileira de ...
The accelerating gradient performance of superconducting niobium cavities is rapidly progressing as ...
The accelerating gradient performance of superconducting niobium cavities is rapidly progressing as ...
As part of a CRADA (Cooperative Research and Development Agreement) between Helmholtz-Zentrum Dresde...
A status report of the superconducting RF photo elec-tron injector development at Forschungszentrum ...
We report on the recent progress at Jefferson Lab in developing ultra high gradient and high Q{sub 0...
As part of a CRADA (Cooperative Research and Development Agreement) between Helmholtz-Zentrum Dresde...
Superconducting cavity technology has made major progresses in the last decade with the introduction...
As an amendment to a CRADA Cooperative Research and Development Agreement between Forschungszentru...
Since 2009 a series of eight nine-cell cavities (AC151 – AC158) of TESLA shape fabricated of large g...
In this contribution, we report progress on the development of a hybrid lead/niobium superconducting...