Octavio D. Rodriguez Salmon, Igor Tavares Padilha, Francisco Dinóla Neto
Published 2018-01-23Version 1
A spin-flip potential $V$ is introduced in a BCS Hamiltonian in order to study a possible thermodynamic effect that might be caused by the addition of a magnetic impurity in a superconductor. We found that the competition between the pairing and the spin-flip effect, caused by the interaction between the itinerant electrons and the spin of the impurity, gives rise to a first-order phase transition for certain values of $V$. The phase diagram shows a tricritical point in a frontier line which is topologically similar to those found in the phase diagrams of some Ising-like models.
Evidence for the first-order phase transition at the divergence region of activity expansions
Spin waves and phase diagram of one-dimensional, dipolar antiferromagnets
Phase Diagram and Superconducting Properties of an Exactly Solvable Model with Correlated Hopping
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