Add to ORKGSuperconducting MgB2 films have been fabricated on sapphire substrate by the method of hybrid physical-chemical vapor deposition (HPCVD). The film thickness ranges from 75 nm to 3 mu m. The investigation on the physical properties, such as the transition temperature, T-C, the transition width, Delta T, and the critical current density, J(C), has indicated that the optimum film thickness is about 1 mu m. At this thickness, T-c(onset) = 40.3 K and Delta T-c = 0.15 K. At T = 5 K without external field, J(C) has been estimated as 5.6x10(5) A/cm(2) according to the Bean model. The film quality begins to degrade as the thickness exceeds 1 mu m. This work has demonstrated that HPCVD is a simple but effective technique for the application in the pr...
Magnesium diboride (MgB2) is a good candidate material for superconducting RF cavities because of it...
We discuss a custom built hybrid physical chemical vapour deposition (HPCVD) system for MgB2 ultra-t...
In this letter, we report on the structural and transport measurements of ultrathin MgB2 films grown...
A thick MgB2 film has been successfully deposited on a (001) crystalline surface of sapphire by the ...
Superconducting MgB2 thin films were fabricated on Mg substrate by using the hybrid physical-chemica...
The thick MgB2 films have been successfully grown on the Cu substrate by the technique of hybrid phy...
MgB2 thick film was synthesized on the stainless steel substrate by the technique of hybrid physical...
We discuss a custom built hybrid physical chemical vapour deposition (HPCVD) system for MgB2 ultra-t...
We fabricate MgB2 ultra-thin films via hybrid physical-chemical vapor deposition technique. Under th...
Hybrid physical-chemical vapor deposition (HPCVD) has been the most effective technique for depositi...
Thick MgB2 films have been grown on Cu substrates by the technique of hybrid physical-chemical vapou...
1 mu m thick polycrystalline MgB2 films have been grown on commercial niobium sheets using the hybri...
We have made a progress in fabricating MgB2 films, similar to 25 mu m, on the stainless steel substr...
Ultrathin MgB2 superconducting films with a thickness down to 7.5 nm are epitaxially grown on (0001)...
We have successfully synthesized MgB2 thick films on 4H-SiC substrate by hybrid physical-chemical de...
Magnesium diboride (MgB2) is a good candidate material for superconducting RF cavities because of it...
We discuss a custom built hybrid physical chemical vapour deposition (HPCVD) system for MgB2 ultra-t...
In this letter, we report on the structural and transport measurements of ultrathin MgB2 films grown...
A thick MgB2 film has been successfully deposited on a (001) crystalline surface of sapphire by the ...
Superconducting MgB2 thin films were fabricated on Mg substrate by using the hybrid physical-chemica...
The thick MgB2 films have been successfully grown on the Cu substrate by the technique of hybrid phy...
MgB2 thick film was synthesized on the stainless steel substrate by the technique of hybrid physical...
We discuss a custom built hybrid physical chemical vapour deposition (HPCVD) system for MgB2 ultra-t...
We fabricate MgB2 ultra-thin films via hybrid physical-chemical vapor deposition technique. Under th...
Hybrid physical-chemical vapor deposition (HPCVD) has been the most effective technique for depositi...
Thick MgB2 films have been grown on Cu substrates by the technique of hybrid physical-chemical vapou...
1 mu m thick polycrystalline MgB2 films have been grown on commercial niobium sheets using the hybri...
We have made a progress in fabricating MgB2 films, similar to 25 mu m, on the stainless steel substr...
Ultrathin MgB2 superconducting films with a thickness down to 7.5 nm are epitaxially grown on (0001)...
We have successfully synthesized MgB2 thick films on 4H-SiC substrate by hybrid physical-chemical de...
Magnesium diboride (MgB2) is a good candidate material for superconducting RF cavities because of it...
We discuss a custom built hybrid physical chemical vapour deposition (HPCVD) system for MgB2 ultra-t...
In this letter, we report on the structural and transport measurements of ultrathin MgB2 films grown...