Absolute thermoelectric power in amorphous Fe_xNi_80-xB₁₉Si₁ alloys

Abstract

The absolute thermoelectric power S of glassy Fe_xNi_80-xB₁₉Si₁ (x=10,13,16) alloys has been measured from 4.2 to 300 K. Of all the available transport theories, only the Mott s-d scattering and Kasuya models reproduce reasonably well the experimental results on composition and temperature dependence of S for temperatures below T_C, the Curie temperature. Both these models, however, fail to account for the observed behavior of S for T≳T_C. Arguments are presented to show that the nonlinear thermoelectric power (TEP) in magnetic glasses is basically due to the dominant contribution to TEP arising from the magnetic scattering from magnetic atoms for T≲T_C.