In-plane and interlayer magnetoresistance in FeSe

Abstract

We report measurements of the in-plane and interlayer magnetoresistances of FeSe. The in-plane magnetoresistance ab/ab(0) for B c is positive below Ts and increases with decreasing temperature, exceeding 2.5 at T = 10 K and B = 14 T. The field-direction dependence indicates that the in-plane magnetoresistance is basically determined by the c-axis component of the magnetic field. The interlayer magnetoresistance c/c(0) is negative below Ts but turns positive below 18 K, which is probably due to the contamination by the large in-plane magnetoresistance. The field-direction dependence of the interlayer magnetoresistance can approximately be described by a standard formula for quasi-two-dimensional electron systems except near B ab. The experimental magnetoresistance near B ab is larger than the formula, which can be attributed to the so-called interlayer coherence peak. The large width of the peak indicates the correspondingly large interlayer transfer energy.