Superconductivity phenomenology Superconductors are materials that exhibit zero (or close to zero) resistance to electrical currents as well as perfect diamagnetism (the Meissner Effect). When a current is started in a superconducting loop, it persists for a very long time without an applied potential difference. The resistivity of a superconductor is measured to be less than 4x10–25 Ω-m (for comparison, the resistivity of an ordinary good conductor is about 10–8 Ω-m), and the associated decay time for the current is estimated to be greater than 100,000 years (as opposed to about 1 µs for an ordinary good conductor)
Explains major superconducting properties including zero resistance, Meissner effect, sharp phase ch...
A basic test station, using a modified four point probe was designed and built for measuring resisti...
Superconductivity is the ability of certain materials to conduct electrical current with no resistan...
Superconductivity phenomenology Superconductors are materials that exhibit zero (or close to zero) r...
The phenomenon of zero resistance below certain low temperature (critical temperature) leads to limi...
Superconductors differ fundamentally in quantum physics behavior from conventional materials in the ...
Superconductivity refers to a fascinating state of matter where the electrical resistivity is precis...
Superconductors have a wide array of applications, such as medical imaging, supercomputing, and elec...
Superconductivity is normally a property of low temperature. The reduction of effects from the obsta...
The accidental discovery of mercury’s zero resistance at temperatures lower than 4.2 K which took pl...
This paper is a review of mathematical modeling of the Meissner effect in superconductivity. Chapter...
Superconductivity is the phenomenon of vanishing an electrical resistivity of materials below a cert...
Key experiments leading to our present understanding of superconductivity are reviewed
Superconductivity is an effect exhibited by certain materials at very low temperatures in which nor...
In the previous works [1-7], we suggested that in the materials with large HOMO-LUMO gaps, the Coope...
Explains major superconducting properties including zero resistance, Meissner effect, sharp phase ch...
A basic test station, using a modified four point probe was designed and built for measuring resisti...
Superconductivity is the ability of certain materials to conduct electrical current with no resistan...
Superconductivity phenomenology Superconductors are materials that exhibit zero (or close to zero) r...
The phenomenon of zero resistance below certain low temperature (critical temperature) leads to limi...
Superconductors differ fundamentally in quantum physics behavior from conventional materials in the ...
Superconductivity refers to a fascinating state of matter where the electrical resistivity is precis...
Superconductors have a wide array of applications, such as medical imaging, supercomputing, and elec...
Superconductivity is normally a property of low temperature. The reduction of effects from the obsta...
The accidental discovery of mercury’s zero resistance at temperatures lower than 4.2 K which took pl...
This paper is a review of mathematical modeling of the Meissner effect in superconductivity. Chapter...
Superconductivity is the phenomenon of vanishing an electrical resistivity of materials below a cert...
Key experiments leading to our present understanding of superconductivity are reviewed
Superconductivity is an effect exhibited by certain materials at very low temperatures in which nor...
In the previous works [1-7], we suggested that in the materials with large HOMO-LUMO gaps, the Coope...
Explains major superconducting properties including zero resistance, Meissner effect, sharp phase ch...
A basic test station, using a modified four point probe was designed and built for measuring resisti...
Superconductivity is the ability of certain materials to conduct electrical current with no resistan...
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