Abstract

We report two-dimensional Seebeck coefficients (∣S∣2D) of [(SrTiO3)x∕(SrTi0.8Nb0.2O3)y]20 (x=1–60, y=1–20) superlattices, which were grown on the (100) face of insulating LaAlO3 substrates to clarify the origin of the giant ∣S∣2D values of the SrTiO3 superlattices [H. Ohta et al., Nat. Mater. 6, 129 (2007)]. The ∣S∣2D values of the [(SrTiO3)17∕(SrTi0.8Nb0.2O3)y]20 superlattices increased proportionally to y−0.5 and reached 320μVK−1 (y=1), which is approximately five times larger than that of the SrTi0.8Nb0.2O3 bulk (∣S∣3D=61μVK−1). The slope of the log∣S∣2D-logy plots was −0.5, proving that the density of states in the ground state for SrTiO3 increases inversely proportionally to y. The critical barrier thickness for quantum electron confinement was also clarified to be 6.25nm (16 unit cells of SrTiO3).