What is the condition for formation of Cooper pair?

What is the condition for formation of Cooper pair?

This can be explained by the theory of Cooper pairing: heavier ions are harder for the electrons to attract and move (how Cooper pairs are formed), which results in smaller binding energy for the pairs.

Why are Cooper pairs formed?

The formation of Cooper pairs due to the interaction of electrons with the crystal lattice, along with their condensation to act as composite bosons, is thus believed to be the reason for superconductivity.

Why does a superconductor have no resistance?

Explanation : the electrons form a new original quantum collective state that is not sensitive to collisions anymore. The electrons are not slowed, and the electric resistance has disappeared.

What is BCS theory in superconductor?

A theory of superconductivity formulated by John Bardeen, Leon Cooper, and Robert Schrieffer. It explains the phenomenon in which a current of electron pairs flows without resistance in certain materials at low temperatures. It is this weak, indirect attraction that binds the electrons together, into a Cooper pair.

Why despite of Coulomb repulsion the electrons form a Cooper pair?

Superconductivity is a quantum phenomenon that results from the attraction between the conduction electrons. They mate in pairs and form Cooper pairs. But electrons also repel each other because they all carry the same electric charge, which is the Coulomb effect.

What is the resistance of a superconductor?

zero
Superconductors are materials that carry electrical current with exactly zero electrical resistance. This means you can move electrons through it without losing any energy to heat.

How can you be sure that a superconductor has zero resistance?

The resistance of the sample is given by Ohm’s law as R = V/I. If the voltage is zero, this means that the resistance is zero. Superconductors are also able to maintain a current with no applied voltage whatsoever, a property exploited in superconducting electromagnets such as those found in MRI machines.

What is BCS Hamiltonian?

It is shown that the BCS Hamiltonian can easily and directly be derived from the second quantization formalism with the condition of k + k′ = 0. It is argued that interaction in the BCS Hamiltonian is naturally attractive in the framework of the Coulomb field between an electron and a hole in k-space.

What is pair condensation theory of superconductivity?

This pair condensation is the basis for the BCS theory of superconductivity. The effective net attraction between the normally repulsive electrons produces a pair binding energy on the order of milli-electron volts, enough to keep them paired at extremely low temperatures.

What is a Cooper pair in a superconductor?

The behavior of superconductors suggests that electron pairs are coupling over a range of hundreds of nanometers, three orders of magnitude larger than the lattice spacing. Called Cooper pairs, these coupled electrons can take the character of a boson and condense into the ground state.

How do electrons in superconductors behave?

The behavior of superconductorssuggests that electron pairs are coupling over a range of hundreds of nanometers, three orders of magnitude larger than the lattice spacing. Called Cooper pairs, these coupled electrons can take the character of a boson and condense into the ground state.

What is the isotope effect in superconductivity?

Isotope Effect, Mercury. This dependence of the critical temperature for superconductivity upon isotopic mass was the first direct evidence for interaction between the electrons and the lattice. This supported the BCS theory of lattice coupling of electron pairs.