Add to ORKGNb/Cu technology for superconducting cavities has proven over the years to be a viable alternative to bulk niobium. Energetic vacuum deposition is a very unique alternative method to grow niobium thin film on copper. This paper presents some exploratory studies of the influence of the deposition energy on the material properties of the Nb thin film. Single crystal growth of niobium on sapphire substrate has been achieved as well as good surface morphology of niobium on small copper samples. The design of a cavity deposition setup under development is also discussed
The Ultra-High-Vacuum (UHV) arc technology was proposed as an alternative for depositing thin superc...
We report a design of photocathode, which combines the good photoemissive properties of lead (Pb) an...
Superconducting radiofrequency resonators for particle acceleration have become a standard component...
Nb/Cu technology for superconducting cavities has proven over the years to be a viable alternative t...
In hoping to improve Niobium deposition on Copper cavity, a vacuum deposition system has been built ...
Copper RF cavities coated with thin Nb (Nb) films are an interesting possible alternative to bulk-Nb...
The RF performance of bulk Nb cavities has continuously improved over the years and is approaching t...
The properties of niobium films obtained by cathodic arc deposition in ultra high vacuum (UHVCA) usi...
Over the years, Nb/Cu technology, despite its shortcomings due to the commonly used magnetron sputte...
This paper reports on recent progress in the application of ultrahigh vacuum arc technology, which ...
Thin film coatings have the potential to increase both the thermal efficiency and accelerating gradi...
This paper reports on recent progress in the application of ultrahigh vacuum arc technology, which ...
This paper describes energetic condensation growth of Nb films using a cathodic arc plasma, whose 60...
Niobium coated copper cavities are an interesting alternative to bulk niobium ones for Superconducti...
The Ultra-High-Vacuum (UHV) arc technology was proposed as an alternative for depositing thin superc...
The Ultra-High-Vacuum (UHV) arc technology was proposed as an alternative for depositing thin superc...
We report a design of photocathode, which combines the good photoemissive properties of lead (Pb) an...
Superconducting radiofrequency resonators for particle acceleration have become a standard component...
Nb/Cu technology for superconducting cavities has proven over the years to be a viable alternative t...
In hoping to improve Niobium deposition on Copper cavity, a vacuum deposition system has been built ...
Copper RF cavities coated with thin Nb (Nb) films are an interesting possible alternative to bulk-Nb...
The RF performance of bulk Nb cavities has continuously improved over the years and is approaching t...
The properties of niobium films obtained by cathodic arc deposition in ultra high vacuum (UHVCA) usi...
Over the years, Nb/Cu technology, despite its shortcomings due to the commonly used magnetron sputte...
This paper reports on recent progress in the application of ultrahigh vacuum arc technology, which ...
Thin film coatings have the potential to increase both the thermal efficiency and accelerating gradi...
This paper reports on recent progress in the application of ultrahigh vacuum arc technology, which ...
This paper describes energetic condensation growth of Nb films using a cathodic arc plasma, whose 60...
Niobium coated copper cavities are an interesting alternative to bulk niobium ones for Superconducti...
The Ultra-High-Vacuum (UHV) arc technology was proposed as an alternative for depositing thin superc...
The Ultra-High-Vacuum (UHV) arc technology was proposed as an alternative for depositing thin superc...
We report a design of photocathode, which combines the good photoemissive properties of lead (Pb) an...
Superconducting radiofrequency resonators for particle acceleration have become a standard component...