Pseudogap in underdoped cuprate seen in longitudinal magnetoresistance

Abstract

Abstract We report the results of in-plane magnetotransport study of slightly underdoped cuprate La1.85Sr0.15CuO4 (LSCO15) with Ni impurity. Increasing Ni content y causes a sharp drop in longitudinal magnetoresistance (LMR) in LSCO15 to broaden and move towards higher temperatures. Temperature T m L M R ( y ) of this local maximum in LMR coincides with temperature T d e v ( y ) , below which ideal resistivity from the parallel-resistor model deviates from its T 2-dependence. A direct comparison with the hole doping evolution of pseudogap (PG) in La 2 − x Sr x CuO4 (LSCO), possible through the mobile-carrier concentration extracted from the thermopower measurements, allows to equate both characteristic temperatures T m L M R ≅ T d e v with PG opening temperature T ∗ . The rate of PG closing by magnetic field parallel to the CuO2 plane, in measurements up to 9 T, is consistent with spin-paramagnetic effect in this configuration and yields PG closing field B pc close to the second critical field B c 2 predicted for superconducting gap with the help of Werthamer–Helfand–Hohenberg theory. The field anisotropy of B pc suggests that orbital degrees of freedom also play a role in PG formation.