High Fermi-level spin polarization in the (Bi[subscript 1−x]Sb[subscript x])2Te[subscript 3] family of topological insulators: A point contact Andreev reflection study
Author(s)
Borisov, K.; Stamenov, P.; Moodera, Jagadeesh; Chang, Cui-zu
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Point contact Andreev reflection spectroscopy is employed to extract the effective Fermi-level spin polarization of three distinct compositions from the (Bi[subscript 1−x]Sb[subscript x])[subscript 2] Te[subscript 3] topological insulator family. The end members, Bi[subscript 2] Te[subscript 3] and Sb[subscript 2] Te[subscript 3], exhibit high polarization of 70(4)% and 57(3)%, respectively. High-field (μ[subscript 0]H=14T) point contact spectroscopy shows carrier depletion close to the Fermi level for these two compositions with small activation gaps of 0.40(4) and 0.28(2) meV, respectively. The almost fully suppressed bulk conductivity in the (Bi[subscript 0.18]Sb[subscript 0.82])[subscript 2] Te[subscript 3] results in an even higher spin polarization of 83(9)%. Further, it is demonstrated that magnetic doping with Cr and V tends to reduce the spin-polarization values with respect to the ones of the pure compositions. Bi[subscript 1.97] Cr[subscript 0.03] Te[subscript 3], Sb[subsript 1.975] Cr[subscript 0.025] Te[subscript 3], Bi[subscript 1.975] V[subscript 0.025] Te[subscript 3], and Sb[subscript 1.97] V [subscipt 0.03] Te[subscript 3] exhibit spin polarization of 52%, 52%, 58%, and 50%, respectively. In view of the rather high effective polarization, nonmagnetic topological insulators close to (Bi[subscript 0.18] Sb[subscript 0.82])[subscript 2] Te[subscript 3] may provide a path towards the characterization of pair-breaking mechanisms in spin-triplet superconductors.
Date issued
2016-09Department
Massachusetts Institute of Technology. Plasma Science and Fusion Center; Francis Bitter Magnet Laboratory (Massachusetts Institute of Technology)Journal
Physical Review B
Publisher
American Physical Society
Citation
Borisov, K. et al. “High Fermi-Level Spin Polarization in the ( Bi 1 − X Sb X ) 2 Te 3 Family of Topological Insulators: A Point Contact Andreev Reflection Study.” Physical Review B 94.9 (2016): n. pag.
Version: Final published version
ISSN
2469-9950
2469-9969