At this time, the significance of superconductivity is increasing as a result of our increased need for clean electrical energy. It has become important to find innovative solutions for the production of energy and for reducing the losses due its transportation. This requirement makes it attractive to use the special properties of high-temperature superconductors. Products such as sensitive superconducting quantum interference (SQUID) devices based on the Josephson Effect, high-speed floating trains, low loss cables, highly efficient motors, high-field magnets for magneto-resonance imaging, and power generators are now arriving on the market. The requirement for a high-temperature superconductors material that has a high critical current an...
R.F. sputtering was used to deposit thin films of YBCO onto a variety of substrates. The films were ...
This thesis describes the development of key components for superconducting quantum interference dev...
The critical current density, Jc, is an engineering parameter of paramount importance for supercondu...
Superconductivity provides revolutionary solutions to practical applications, such as magnetic reson...
Different experimental techniques are employed to evaluate the critical current density (Jc), namely...
Superconductivity provides revolutionary solutions to practical applications, such as magnetic reson...
Critical current density: Measurements vs. reality Different experimental techniques are employed to...
We have measured the critical current density Jc of high quality c-axis oriented YBa2Cu3...
In this work the effect of vibrations on critical current density ( Jc) of superconductors has been ...
The most promising characteristic of a High Temperature Superconductor (HTS) is its ability to carry...
The most promising characteristic of a High Temperature Superconductor (HTS) is its ability to carry...
Magneto-optical investigation of flux penetration into high- temperature superconducting thin films...
R.F. sputtering was used to deposit thin films of YBCO onto a variety of substrates. The films were ...
R.F. sputtering was used to deposit thin films of YBCO onto a variety of substrates. The films were ...
We present a way to reach the maximum possible critical current density, J(c), for YBa2Cu3O6+x (YBCO...
R.F. sputtering was used to deposit thin films of YBCO onto a variety of substrates. The films were ...
This thesis describes the development of key components for superconducting quantum interference dev...
The critical current density, Jc, is an engineering parameter of paramount importance for supercondu...
Superconductivity provides revolutionary solutions to practical applications, such as magnetic reson...
Different experimental techniques are employed to evaluate the critical current density (Jc), namely...
Superconductivity provides revolutionary solutions to practical applications, such as magnetic reson...
Critical current density: Measurements vs. reality Different experimental techniques are employed to...
We have measured the critical current density Jc of high quality c-axis oriented YBa2Cu3...
In this work the effect of vibrations on critical current density ( Jc) of superconductors has been ...
The most promising characteristic of a High Temperature Superconductor (HTS) is its ability to carry...
The most promising characteristic of a High Temperature Superconductor (HTS) is its ability to carry...
Magneto-optical investigation of flux penetration into high- temperature superconducting thin films...
R.F. sputtering was used to deposit thin films of YBCO onto a variety of substrates. The films were ...
R.F. sputtering was used to deposit thin films of YBCO onto a variety of substrates. The films were ...
We present a way to reach the maximum possible critical current density, J(c), for YBa2Cu3O6+x (YBCO...
R.F. sputtering was used to deposit thin films of YBCO onto a variety of substrates. The films were ...
This thesis describes the development of key components for superconducting quantum interference dev...
The critical current density, Jc, is an engineering parameter of paramount importance for supercondu...