Add to ORKGNiobium (Nb) is the most popular material that has been employed for making superconducting radio frequency (SRF) cavities to be used in various particle accelerators over the last couple of decades. One of the most important steps in fabricating Nb SRF cavities is the final chemical removal of 150 {mu}m of Nb from the inner surfaces of the SRF cavities. This is usually done by either buffered chemical polishing (BCP) or electropolishing (EP). Recently a new Nb surface treatment technique called buffered electropolishing (BEP) has been developed at Jefferson Lab. It has been demonstrated that BEP can produce the smoothest surface finish on Nb ever reported in the literature while realizing a Nb removal rate as high as 10 {mu}m/min that is m...
Pure niobium is used for making superconducting radio frequency (SRF) cavities. These cavities need ...
The electropolishing process (EP) is considered an essential step in the processing of high gradient...
In order to increase the maximum accelerating gradient in superconducting niobium cavities, electrol...
Niobium (Nb) is the most common material that has been employed for making superconducting radio fre...
As niobium (Nb) based superconducting radio frequency (SRF) technology is maturing, more and more pa...
Buffered electropolishing (BEP) is a Nb surface treatment technique developed at Jefferson Lab1. Exp...
In this paper, studies on applying a new electrolyte to treat the surfaces of Nb sheets, which was c...
Recent experimental results have indicated that Buffered Electropolishing (BEP) is a promising candi...
Recent experimental results have indicated that Buffered Electropolishing (BEP) is a promising candi...
We report the latest research development of vertical buffered electropolishing on its post-treatmen...
In this paper, studies on applying a new electrolyte to treat the surfaces of Nb sheets, which was c...
Niobium (Nb) is the current material of choice for the fabrication of superconducting radio frequenc...
The objectives of this project are to 1, Expand the scientific and technological understanding of th...
Work supported by as part of R&D effort for ILC Accelerator performance, in particular the avera...
Accelerator performance, in particular the average accelerating field and the cavity quality factor,...
Pure niobium is used for making superconducting radio frequency (SRF) cavities. These cavities need ...
The electropolishing process (EP) is considered an essential step in the processing of high gradient...
In order to increase the maximum accelerating gradient in superconducting niobium cavities, electrol...
Niobium (Nb) is the most common material that has been employed for making superconducting radio fre...
As niobium (Nb) based superconducting radio frequency (SRF) technology is maturing, more and more pa...
Buffered electropolishing (BEP) is a Nb surface treatment technique developed at Jefferson Lab1. Exp...
In this paper, studies on applying a new electrolyte to treat the surfaces of Nb sheets, which was c...
Recent experimental results have indicated that Buffered Electropolishing (BEP) is a promising candi...
Recent experimental results have indicated that Buffered Electropolishing (BEP) is a promising candi...
We report the latest research development of vertical buffered electropolishing on its post-treatmen...
In this paper, studies on applying a new electrolyte to treat the surfaces of Nb sheets, which was c...
Niobium (Nb) is the current material of choice for the fabrication of superconducting radio frequenc...
The objectives of this project are to 1, Expand the scientific and technological understanding of th...
Work supported by as part of R&D effort for ILC Accelerator performance, in particular the avera...
Accelerator performance, in particular the average accelerating field and the cavity quality factor,...
Pure niobium is used for making superconducting radio frequency (SRF) cavities. These cavities need ...
The electropolishing process (EP) is considered an essential step in the processing of high gradient...
In order to increase the maximum accelerating gradient in superconducting niobium cavities, electrol...