It was found that the presence of a magnetic field influences the formation of Cooper pairs, which are essential for superconductivity. The research indicates a weak first-order transition from ...

Type I superconductors WEEK 4 Current transport in superconductors, second-order phase transitions & the Ginzburg-Landau calculation for magnetic flux penetration WEEK 5 Microscopic theory of ...

Superconductivity is a fascinating phenomenon in which certain materials exhibit zero electrical resistance and expel magnetic fields below a characteristic temperature, known as the critical ...

Cooper pairs can all come together into a coherent ... Bardeen, Cooper, and Schrieffer’s theory of phonon-based superconductivity earned them the physics Nobel Prize in 1972.

Observing the effects of special relativity doesn't necessarily require objects moving at a significant fraction of the speed of light. In fact, length contraction in special relativity explains how ...

One of the hallmarks of superconductivity is the Meissner effect, where a superconducting material expels magnetic fields from its interior. This phenomenon occurs because the superconducting state is ...

At extremely high densities, quarks are expected to form pairs, as electrons do in a superconductor. This high-density quark behavior is called color superconductivity. The strength of pairing ...

A new study reveals that highly disordered indium oxide superconductors undergo a first-order quantum phase transition — a sudden shift from a superconducting to an insulating state. This ...