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 Antiferromagnetic Insulator Unraveled from Interlayer Exchange Coupling in Artificial Perovskite Iridate Superlattices

Lin, Hai–Qing; Meyers, D.; Frederick, Clayton; Fabbris, G.; Yang, Junyi; Traynor, Nathan; Horák, Lukáš; Kriegner, Dominik; Choi, Y.; Kim, Jong Woo; Haskel, D.; Ryan, Phil; Dean, M. P. M.; Liu, Jian

doi:10.1103/physrevlett.119.027204

Cited by 62 publications

(51 citation statements)

References 55 publications

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“…Application of epitaxial strain has been shown to allow controlled modulations to the material's properties [41,49,51,52,53,54]. Furthermore, layering of SrIrO 3 with band-insulating SrTiO 3 allows the creation of artificial analogues of the RP series iridates, with the advantage of enhanced strain control and the ability to synthesize structures not obtainable in bulk form [55,56]. Finally, replacing the band-insulating layer with active 3d magnetic oxides creates interfacial magnetic interactions which can capitalize on the strong SOC of the 5d state and introduce novel magnetic behavior [57, 58,59,60,61].…”

Section: Introductionmentioning

confidence: 99%

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Novel spin-orbit coupling driven emergent states in iridate-based heterostructures

Lin

Meyers

Dean

et al. 2019

Journal of Physics and Chemistry of Solids

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Recent years have seen many examples of how the strong spin-orbit coupling (SOC) present in iridates can stabilize new emergent states that are difficult or impossible to realize in more conventional materials. In this review we outline a representative set of studies detailing how heterostructures based on Ruddlesden-Popper (RP) and perovskite iridates can be used to access yet more novel physics. Beginning with a short synopsis of iridate thin film growth, the effects of the heterostructure morphology on the RP iridates including Sr 2 IrO 4 and SrIrO 3 are discussed. Example studies explore the effects of epitaxial strain, laser-excitation to access transient states, topological semimetallicity in SrIrO 3 , 2D magnetism in artificial RP iridates, and interfacial magnetic coupling between iridate and neighboring layers. Taken together, these works show the fantastic potential for controlled engineering of novel quantum phenomena in iridate heterostructures.

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Section: Introductionmentioning

confidence: 99%

“…(c) In-plane remnant magnetization as function of temperature. Before measurement in zero-field, samples were cooled down under 5 kOe inplane magnetic field[56].…”

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confidence: 99%

Novel spin-orbit coupling driven emergent states in iridate-based heterostructures

Lin

Meyers

Dean

et al. 2019

Journal of Physics and Chemistry of Solids

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“…To study changes in electronic structure between the two end members of the RP series, previous studies have focused on varying the number of SrIrO 3 layers in [ðSrIrO 3 Þ m ; SrTiO 3 ] superlattices [13][14][15][16][17]. While these superlattices closely resemble the RP series, they are distinctly different from SrIrO 3 thin films since they are affected by interlayer coupling.…”

Section: Spin-orbit Semimetal Sriro 3 In the Two-dimensional Limitmentioning

confidence: 99%

“…This was recently underlined by Hao et al by demonstrating that the interlayer coupling can be tuned through the number of SrTiO 3 u.c. [16]. By studying single ultrathin SrIrO 3 layers of different thicknesses, we directly address the effect of dimensionality and access the intrinsic properties of 2D SrIrO 3 , which forms a building block for spin-orbit coupled superlattices and heterostructures.…”

Section: Spin-orbit Semimetal Sriro 3 In the Two-dimensional Limitmentioning

confidence: 99%

Spin-Orbit Semimetal SrIrO3 in the Two-Dimensional Limit

Autieri²,

et al. 2017

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We investigate the thickness-dependent electronic structure of ultrathin SrIrO 3 and discover a transition from a semimetallic to a correlated insulating state below 4 unit cells. Low-temperature magnetoconductance measurements show that spin fluctuations in the semimetallic state are significantly enhanced while approaching the transition point. The electronic structure is further studied by scanning tunneling spectroscopy, showing that 4 unit cells SrIrO 3 is on the verge of a gap opening. Our density functional theory calculations reproduce the critical thickness of the transition and show that the opening of a gap in ultrathin SrIrO 3 is accompanied by antiferromagnetic order.

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“…SrIrO3 is an exotic semimetal due to its strong SOC (13,14). However, ICT does not occur in most artificial heterostructures and superlattices involving iridates studied to date, such as SrIrO3/SrTiO3 and SrIrO3/SrRuO3 systems (15)(16)(17)(18)(19)(20)(21)(22).…”

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confidence: 99%

Interfacial charge-transfer Mott state in iridate–nickelate superlattices

Liu

Kotiuga

Kim

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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We investigate SrIrO 3 /LaNiO 3 superlattices in which we observe a full electron transfer at the interface from Ir to Ni, triggering a massive structural and electronic reconstruction. Through experimental characterization and first-principles calculations, we determine that a large crystal field splitting from the distorted interfacial IrO 6 octahedra surprisingly dominates over the spinorbit coupling and together with the Hund's coupling results in the high-spin (S = 1) configurations on both the Ir and Ni sites. This demonstrates the power of interfacial charge transfer in coupling lattice, charge, orbital, and spin degrees of freedom, opening fresh avenues of investigation of quantum states in oxide superlattices.superlattice | interfacial charge transfer | iridates | nickelates

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Two-Dimensional Jeff=1/2 Antiferromagnetic Insulator Unraveled from Interlayer Exchange Coupling in Artificial Perovskite Iridate Superlattices

Cited by 62 publications

References 55 publications

Novel spin-orbit coupling driven emergent states in iridate-based heterostructures

Novel spin-orbit coupling driven emergent states in iridate-based heterostructures

Spin-Orbit Semimetal SrIrO3 in the Two-Dimensional Limit

Interfacial charge-transfer Mott state in iridate–nickelate superlattices

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