Low Temperature Physics: 44, 519 (2018); https://doi.org/10.1063/1.5037554
Физика Низких Температур: Том 44, Выпуск 6 (Июнь 2018), c. 674-683    ( к оглавлению , назад )

Can high-Tc superconductivity in cuprates be explained by the conventional BCS theory?

I. Božović1,2, A.T. Bollinger1, J. Wu1, and X. He1,2

1Brookhaven National Laboratory, Upton, New York 11973-5000, USA

2Applied Physics Department, Yale University, New Haven CT 06520, USA
E-mail: bozovic@bnl.gov

Received February 2, 2018


For overdoped cuprates, it is believed that the normal state behaves as an ordinary Fermi liquid while the superconducting state conforms to the BCS theory. We have put these beliefs to the test by a comprehensive experiment in which over two thousand cuprate films were synthesized by molecular beam epitaxy and studied in great detail and precision. Here, we compare our key experimental results to various proposed explanations based on BCS theory extended to dirty d-wave superconductors, including the cases of strong (unitary) and weak (Born) scattering on impurities. The discrepancies seem insurmountable, and point to the need to develop the theory further, likely beyond the canonical BCS paradigm.

PACS: 74.72.–h Cuprate superconductors;
PACS: 74.20.–z Theories and models of superconducting state;
PACS: 74.62.En Effects of disorder.

Key words: superconductivity, cuprates, molecular beam epitaxy, BCS theory.

Published online: April 25, 2018