Quantum oscillations in topological superconductor candidate Cu0.25Bi2Se3

Abstract

Quantum oscillations are generally studied to resolve the electronic structure of topological insulators. In Cu0.25Bi2Se3, the prime candidate of topological superconductors, quantum oscillations are still not observed in magnetotransport measurement. However, using torque magnetometry, quantum oscillations (the de Hass - van Alphen effect) were observed in Cu0.25Bi2Se3 . The doping of Cu in Bi2Se3 increases the carrier density and the effective mass without increasing the scattering rate or decreasing the mean free path. In addition, the Fermi velocity remains the same in Cu0.25Bi2Se3 as that in Bi2Se3. Our results imply that the insertion of Cu does not change the band structure of Bi2Se3.