Alexandrov, A.S. Unconventional pairing symmetry of layered superconductors caused by acoustic phonons An inevitable anisotropy of sound velocity in crystals makes the phonon-mediated attraction of electrons nonlocal in space providing unconventional Cooper pairs with a nonzero orbital momentum. As a result of this anisotropy, quasi-two-dimensional charge carriers weakly coupled with acoustic phonons undergo a quantum phase transition from a conventional s-wave to an unconventional d-wave superconducting state with less carriers per unit cell. In the opposite strong-coupling regime, rotational symmetry breaking appears as a result of a reduced Coulomb repulsion between unconventional bipolarons dismissing thereby some constraints on unconventional pairing in the Bose-Einstein condensation limit. The conventional acoustic phonons, and not superexchange, are shown to be responsible for the d-wave symmetry of cuprate superconductors, where the on-site Coulomb repulsion is large. untagged;Physical Sciences not elsewhere classified 2009-02-19
    https://repository.lboro.ac.uk/articles/journal_contribution/Unconventional_pairing_symmetry_of_layered_superconductors_caused_by_acoustic_phonons/9407669