Growth and characterization of hybrid insulating ferromagnet-topological insulator heterostructure devices

Kandala, Abhinav; Richardella, Anthony; Rench, D. W.; Zhang, D. M.; Flanagan, T.; Samarth, N.

doi:10.1063/1.4831987

Cited by 107 publications

(80 citation statements)

References 24 publications

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“…27 With similar objectives, Yang et al 28 and Kandala et al 29 at H C coincides with the occurrence of resistance minima (or higher electrical conduction). This unconventional behavior was attributed to the isotropic distribution of domains and hence the observed isotropic planar MR. Interestingly, the Dirac SSs along the domain wall were theoretically predicted to have zero mass carrying chiral conduction modes similar to the quantum Hall edge channels, 1,2 in agreement with the experimental observations of the MR dips (increased conduction) at H C .…”

Section: Fi/ti Heterostructures Have Shown Success In Producing Ferromentioning

confidence: 75%

“…27 Generally, all the FIs have an in-plane easy magnetization axis, although canted magnetization or small perpendicular magnetic hysteresis has been reported. [27][28][29] However, the perpendicular magnetic anisotropy (PMA) can be engineered by choosing a proper interface layer, which is attributed to the hybridization of the electronic states. 34 Strong PMA in transition metal/rare-earth multilayers has been reported.…”

Section: Fi/ti Heterostructures Have Shown Success In Producing Ferromentioning

confidence: 99%

“…In this case, the allimportant advantage is that the TRS breaking happens mostly at the interface between the TI and the FI, rather than affecting the majority bulk states, while also not introducing defects ( Figure 1b). However, in general, thin films of FIs show in-plane easy axis of magnetization, [27][28][29] which hinders the observation of the QAHE or the zero-field half-integer QHE. 7 We provide an overview of the behavior of FI/TI heterostructures and that of magnetically doped Se/Te-based TI compounds as well as bring out their differences.…”

Section: Introductionmentioning

confidence: 99%

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Breaking time reversal symmetry in topological insulators

2014

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Section: Fi/ti Heterostructures Have Shown Success In Producing Ferromentioning

confidence: 75%

Section: Fi/ti Heterostructures Have Shown Success In Producing Ferromentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Breaking time reversal symmetry in topological insulators

2014

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“…Such a quadratic field dependence has never been observed in either perpendicular or parallel fields in previous studies of TI/MI heterostructures, such as Bi 2 Se 3 /EuS, Bi 2 Se 3 /GdN and Bi 2 Se 3 /YIG. 16,17,19,45 The other is the strong T -dependence of both types of parabolic MR. This is further illustrated in Fig.…”

mentioning

confidence: 99%

“…Au thin films) with magnetic adatoms. 19,46 In case of very strong magnetic scatterings, there is a crossover from the symplectic limit (α=1/2) to the unitary limit (α=0).…”

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Proximity effect between a topological insulator and a magnetic insulator with large perpendicular anisotropy

Yang

Zhang

et al. 2014

Applied Physics Letters

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We report that thin films of a prototype topological insulator, Bi 2 Se 3 , can be epitaxially grown onto the (0001) surface of BaFe 12 O 19 (BaM), a magnetic insulator with high Curie temperature and large perpendicular anisotropy. In the Bi 2 Se 3 thin films grown on non-magnetic substrates, classic weak antilocalization (WAL) is manifested as cusp-shaped positive magnetoresistance (MR) in perpendicular magnetic fields and parabolashaped positive MR in parallel fields, whereas in Bi 2 Se 3 /BaM heterostructures the low field MR is parabolashaped, which is positive in perpendicular fields and negative in parallel fields. The magnetic field and temperature dependence of the MR is explained as a consequence of the suppression of WAL due to strong magnetic interactions at the Bi 2 Se 3 /BaM interface.The surface of a three-dimensional topological insulator (TI) hosts a fascinating Dirac electron system with momentum locked to real electron spins, 1,2 in contrast to the valley-related pseudospins in graphene.3 The helical spin structure has been exploited theoretically as the basis for realizing topological magnetoelectric effects and spintronic applications. [4][5][6][7][8][9][10][11][12] In many proposals, a key ingredient is to open an energy gap near the Dirac point via the proximity effect between a TI and a magnetic insulator (MI). In case of magnetization of the MI parallel to the interface, obtaining a sizable gap would require significant Fermi surface warping.13,14 In contrast, an MI with out-of-plane magnetic order can break time reversal symmetry, thereby opening a large energy gap on any TI surface as long as the interfacial exchange interaction is sufficiently strong. Unfortunately, the easy magnetization axis in most known MIs, such as ferro- 23-27 It is highly insulating and has a Curie temperature of 723 K.27 In this work, the flat (0001) surfaces of nearly hexagon-shaped single crystalline thin plates (Fig. 1a), were used as the substrates for epitaxial growth of Bi 2 Se 3 thin films. Fig. 1b shows magnetization curves of a typical BaM sample with magnetic field H applied perpendicular and parallel to the (0001) plane at T =2 K. The magnetization M reaches saturation at µ 0 H=0.5 T and 1.75 T for perpendicular and parallel field orientations, respectively. For both orientations, M has a nearly linear dependence on H below the saturation. These features are in agreement with those previously reported for high quality single crystals.23,25 The large perpendicular anisotropy, the simple M -H relationship, and the high Curie temperature make BaM a valuable platform for investigation of the interfacial interactions between TIs and magnetic materials. Furthermore, the large remnant magnetization in some specially engineered BaM thin films 28 could be very useful for pursuing topological magnetoelectric effects without external magnetic fields. Fig. 1c is a high resolution cross-section transmission electron microscopy (TEM) image of a Bi 2 Se 3 /BaM heterostructure. It shows that the 1 nm thick Se-Bi-Se...

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