Spin polarization decay in magnetic tunnel junctions with semimetal-inserted layers

Abstract

Magnetic tunnel junctions (MTJs) were fabricated with a thin layer of semimetallic bismuth inserted between the tunnel barrier and the top ferromagnetic electrode. The tunneling magnetoresistance (TMR) was measured on a set of samples for which the thickness of the inserted layer varied from 0 to 20 nm. The TMR decreased with an exponential decay length that was found to be Lambda(Bi)=4.1 nm=0.48 lambda(F,Bi), where lambda(F,Bi) is the Fermi wavelength measured in comparable Bi films. This result is in remarkably good agreement with the decay length previously measured in MTJs with inserted copper layers, lambda(Cu)= 0.58 lambda(F,Cu), even though the values of lambda(F) differ by an order of magnitude. It thereby gives a confirmation that the characteristic length scale of the tunneling density of states is the Fermi wavelength. Measurements of TMR as a function of bias voltage show a large asymmetry and the peak TMR is shifted to a nonzero value. (C) 2010 American Institute of Physics. [doi:10.1063/1.3415540]