Your search keyword '"Kareev, M."' showing total 43 results

1. Sub-monolayer nucleation and growth of complex oxides at high supersaturation and rapid flux modulation.

Author

Kareev, M., Prosandeev, S., Gray, B., Jian Liu, Ryan, P., Kareev, A., Eun Ju Moon, and Chakhalian, J.

Subjects

*HETEROSTRUCTURES, *NUCLEATION, *NANOELECTROMECHANICAL systems, *SUPERLATTICES, *SYNCHROTRONS

Abstract

We report on the unusual nanoscale kinetics of the layer-by-layer deposition of complex oxide heterostructures composed of a unit-cell thick correlated metal LaNiO3 and dielectric LaAlO3. The ultrathin multilayers demonstrate extremely good crystallinity and surface morphology maintained over the large number of layers, as confirmed by combination of AFM, RHEED, and synchrotron x-ray diffraction. To elucidate the physics behind the growth, the temperature of the substrate and the deposition rate are varied over a wide range and the results are treated in the framework of a two-layer model. The results demonstrate that, in addition to temperature and vapor supersaturation, modulated flux can be employed as a powerful kinetic handle for the fine-tuned manipulation of sub-monolayer growth regimes of multicomponent materials. [ABSTRACT FROM AUTHOR]

Published

2011

2. Electronic and magnetic properties of (1 1 1)-oriented CoCr2O4 epitaxial thin film.

Author

Xiaoran Liu, Kareev, M., Yanwei Cao, Jian Liu, Middey, S., Meyers, D., Freeland, J. W., and Chakhalian, J.

Subjects

*SINGLE crystals, *COBALT chromite, *ELECTRIC properties of metals, *MAGNETIC properties of metals, *HETEROSTRUCTURES, *HIGH energy electron diffraction, *ATOMIC force microscopy, *QUANTUM states

Abstract

We report on the fabrication of high quality (1 1 1)-oriented ferrimagnetic normal spinel CoCr2O4 epitaxial thin films on single crystal Al2O3 substrates. The structural, electronic, and magnetic properties were characterized by in-situ reflection high energy electron diffraction, atomic force microscopy, X-ray diffraction, X-ray photoemission spectroscopy, dc magnetization measurement, and element resolved resonant X-ray magnetic scattering. The comprehensive characterization reveals that no disorder in the cation distribution or multivalency issue is present in the samples. As a result, Kagome and triangular layers are naturally formed via this specific growth approach. These findings offer a pathway to fabricate two dimensional Kagomé heterostructures with exotic quantum many-body phenomena by means of geometrical design. [ABSTRACT FROM AUTHOR]

Published

2014

3. Epitaxial stabilization of ultra thin films of electron doped manganites.

Author

Middey, S., Kareev, M., Meyers, D., Liu, X., Cao, Y., Tripathi, S., Yazici, D., Maple, M. B., Ryan, P. J., Freeland, J. W., and Chakhalian, J.

Subjects

*MAGNETIC epitaxial layers, *MANGANITE, *THIN films, *SEMICONDUCTOR doping, *PULSED laser deposition, *METAL-insulator transitions

Abstract

Ultra-thin films of the electron doped manganite La0.8Ce0.2MnO3 were grown in a layer-by-layer growth mode on SrTiO3 (001) substrates by pulsed laser interval deposition. High structural quality and surface morphology were confirmed by a combination of synchrotron based x-ray diffraction and atomic force microscopy. Resonant X-ray absorption spectroscopy measurements confirm the presence of Ce4þ and Mn2þ ions. In addition, the electron doping signature was corroborated by Hall effect measurements. All grown films show a ferromagnetic ground state as revealed by both dc magnetization and x-ray magnetic circular dichroism measurements and remain insulating contrary to earlier reports of a metal-insulator transition. Our results hint at the possibility of electron-hole asymmetry in the colossal magnetoresistive manganite phase diagram akin to the high-Tc cuprates. [ABSTRACT FROM AUTHOR]

Published

2014

4. Metal-Insulator Transition and Orbital Reconstruction in Mott-Type Quantum Wells Made of NdNiO3.

Author

Liu, Jian, Kareev, M., Meyers, D., Gray, B., Ryan, P., Freeland, J. W., and Chakhalian, J.

Subjects

*METAL-insulator transitions, *QUANTUM wells, *NEODYMIUM compounds, *MOTT effect (Physics), *ATOMIC orbitals, *ELECTRONIC structure, *BOUNDARY value problems, *GROUND state (Quantum mechanics), *DIELECTRICS

Abstract

The metal-insulator transition and the underlying electronic and orbital structure in ej, quantum wells based on NdNiO3 were investigated by dc transport and resonant soft x-ray absorption spectroscopy. By comparing quantum wells of the same dimension but with two different confinement structures, we explicitly demonstrate that the quantum well boundary condition of correlated electrons is critical to selecting the many-body ground state. In particular, the long-range orderings and the metal-insulator transition are found to be strongly enhanced under quantum confinement by sandwiching NdNiO3 with the wide-gap dielectric LaAlO3, while they are suppressed when one of the interfaces is replaced by a surface (interface with vacuum). Resonant spectroscopy reveals that the reduced charge fluctuations in the sandwich structure are supported by the enhanced propensity to charge ordering due to the suppressed eg orbital splitting when interfaced with the confining LaAlO3 layer. [ABSTRACT FROM AUTHOR]

Published

2012

5. Strain-mediated metal-insulator transition in epitaxial ultrathin films of NdNiO3.

Author

Jian Liu, Kareev, M., Gray, B., Kim, J. W., Ryan, P., Dabrowski, B., Freeland, J. W., and Chakhalian, J.

Subjects

*STRAINS & stresses (Mechanics), *METAL insulator semiconductors, *EPITAXY, *THIN films, *X-ray diffraction

Abstract

We have synthesized epitaxial NdNiO3 ultrathin films in a layer-by-layer growth mode under tensile and compressive strain on SrTiO3 (001) and LaAlO3 (001), respectively. A combination of x-ray diffraction, temperature dependent resistivity, and soft x-ray absorption spectroscopy has been applied to elucidate electronic and structural properties of the samples. In contrast to the bulk NdNiO3, the metal-insulator transition under compressive strain is found to be completely quenched, while the transition remains under the tensile strain albeit modified from the bulk behavior. [ABSTRACT FROM AUTHOR]

Published

2010

6. Effect of polar discontinuity on the growth of LaNiO3/LaAlO3 superlattices.

Author

Jian Liu, Kareev, M., Prosandeev, S., Gray, B., Ryan, P., Freeland, J. W., and Chakhalian, J.

Subjects

*SUPERLATTICES, *PHYSICS research, *POLARIZATION (Electricity), *ELECTRONICS, *TRANSITION metal ions

Abstract

We have conducted a detailed microscopic investigation of [LaNiO3(1 u.c.)/LaAlO3(1 u.c.)]N superlattices grown on (001) SrTiO3 and LaAlO3 to explore the influence of polar mismatch on the resulting electronic and structural properties. Our data demonstrate that the initial growth on the nonpolar SrTiO3 surface leads to a rough morphology and unusual 2+ valence of Ni in the initial LaNiO3 layer, which is not observed after growth on the polar surface of LaAlO3. A devised model suggests that the polar mismatch can be resolved if the perovskite layers grow with an excess of LaO, which also accounts for the observed electronic, chemical, and structural effects. [ABSTRACT FROM AUTHOR]

Published

2010

7. Atomic control and characterization of surface defect states of TiO2 terminated SrTiO3 single crystals.

Author

Kareev, M., Prosandeev, S., Liu, J., Gan, C., Kareev, A., Freeland, J. W., Min Xiao, and Chakhalian, J.

Subjects

*SURFACE defects, *TITANIUM, *OXYGEN, *ETCHING, *ATOMIC force microscopy, *PHOTOLUMINESCENCE, *ELECTRON diffraction, *X-ray diffraction

Abstract

By using an alternative wet-etch procedure, we have obtained high-quality atomically flat TiO2 terminated surfaces of SrTiO3 single crystals with the morphology equivalent to that of the conventional wet-etch methods. By applying a combined power of photoluminescence (PL) spectroscopy, reflection high-energy electron diffraction, atomic force microscopy imaging, and soft x-ray absorption (XAS), we were able to identify and monitor the complex evolution of oxygen defect states and Ti valency at the surface and near-surface layers. Our experiments revealed a high level of local defects resulting in the presence of the Ti3+ states at the surface. We have developed a method to control the defect states capable of a marked reduction of the defect concentration. We have demonstrated that the PL and XAS are able to distinguish the surface-related Ti3+ states from oxygen vacancies trapping charge transfer vibronic excitons that define the PL intensity. The experimental findings will have important implications for the growth of high-quality ultrathin complex oxide heterostructures. [ABSTRACT FROM AUTHOR]

Published

2008

8. Metallic conductance at the interface of tri-color titanate superlattices.

Author

Kareev, M., Cao, Yanwei, Liu, Xiaoran, Middey, S., Meyers, D., and Chakhalian, J.

Subjects

*TITANATES, *ELECTRIC conductivity, *ELECTRIC properties of metals, *SUPERLATTICES, *PULSED laser deposition, *PHOTOELECTRON spectroscopy, *SPIN polarization

Abstract

Ultra-thin tri-color (tri-layer) titanate superlattices ([3 u.c. LaTiO3/2 u.c. SrTiO3/3 u.c. YTiO3], u.c. = unit cells) were grown in a layer-by-layer way on single crystal TbScO3 (110) substrates by pulsed laser deposition. High sample quality and electronic structure were characterized by the combination of in-situ photoelectron and ex-situ structure and surface morphology probes. Temperature-dependent sheet resistance indicates the presence of metallic interfaces in both [3 u.c. LaTiO3/2 u.c. SrTiO3] bi-layers and all the tri-color structures, whereas a [3 u.c. YTiO3/2 u.c. SrTiO3] bi-layer shows insulating behavior. Considering that in the bulk YTiO3 is ferromagnetic below 30 K, the tri-color titanate superlattices provide an opportunity to induce tunable spin-polarization into the two-dimensional electron gas with Mott carriers. [ABSTRACT FROM AUTHOR]

Published

2013

9. Charge order and antiferromagnetism in epitaxial ultrathin films of EuNiO3.

Author

Meyers, D., Middey, S., Kareev, M., Liu, Jian, Kim, J. W., Shafer, P., Ryan, P. J., and Chakhalian, J.

Subjects

*NICKEL oxides, *ANTIFERROMAGNETISM, *METALLIC thin films, *DIMENSION reduction (Statistics), *ANTIFERROMAGNETIC materials, *X-ray scattering

Abstract

On a road towards applications and devices based on functional oxides with correlated electrons, the crucial element is uncovering the effects of the reduced dimensionality on the electronic phase transition into a multiordered ground state. Towards this goal, we present a study of reduced dimensionality on charge and antiferromagnetic orderings in ultrathin EuNiO3 films on NdGaO3 substrates using hard and soft resonant x-ray scattering to investigate the presence of electronic and magnetic orderings. Despite the ultrathin nature of the films, they exhibit the bulklike order parameters up to room temperature, suggesting that the spontaneously coherent Mott ground state in the highly distorted rare-earth nickelates can be successfully sustained even when constrained towards two-dimensionality. The presence of charge ordering at room temperature and below opens prospects for their use in novel electric-field-controlled devices. [ABSTRACT FROM AUTHOR]

Published

2015

10. Epitaxial stabilization of ultra-thin films of EuNiO3.

Author

Meyers, D, Moon, E J, Kareev, M, Tung, I C, Gray, B A, Liu, Jian, Bedzyk, M J, Freeland, J W, and Chakhalian, J

Subjects

*THIN film research, *LASER pulses, *ELECTRON diffraction, *ATOMIC force microscopy, *FERROMAGNETIC-antiferromagnetic transitions, *RARE earth metals

Abstract

We report on the synthesis of ultra-thin films of highly distorted EuNiO3 (ENO) grown by interrupted pulse laser epitaxy on YAlO3 perovskite (YAP) substrates. Samples were then investigated with reflection high energy electron diffraction, atomic force microscopy, x-ray diffraction, reciprocal space mapping, and x-ray absorption spectroscopy. Combined, the measurements revealed the samples exhibited high structural and electronic quality that is of critical importance to the observed electronic and magnetic properties of the rare-earth nickelates. Growth of ultra-thin films of this highly distorted nickelate system in precisely controlled environments provides the ability to thoroughly investigate electronic phases with decoupled metal-to-insulator/charge-order and anti-ferromagnetic transitions. [ABSTRACT FROM AUTHOR]

Published

2013

11. Strain-modulated Mott transition in EuNiO3 ultrathin films.

Author

Meyers, D., Middey, S., Kareev, M., van Veenendaal, M., Moon, E. J., Gray, B. A., Liu, Jian, Freeland, J. W., and Chakhalian, J.

Subjects

*EUROPIUM compounds, *STRAIN rate, *THIN film research, *EPITAXY, *METAL-insulator transitions

Abstract

A series of ultrathin epitaxial films of EuNiO3 (ENO) were grown on a set of substrates traversing from compressive (−2.4%) to tensile (+2.5%) lattice mismatch. On moving from tensile to compressive strain, transport measurements demonstrate a successively suppressed Mott insulating behavior eventually resulting in a complete suppression of the insulating state at high compressive strain. Corroborating these findings, resonant soft x-ray absorption spectroscopy at the Ni L3,2 edge reveals the presence of a strong multiplet splitting in the tensile strained samples that progressively weakens with increasing compressive strain. Combined with cluster calculations, the results show how cumulatively enhanced covalency (i.e., bandwidth) between Ni d and O p orbital derived states leads to the emergent metallic ground state not attainable in the bulk ENO. [ABSTRACT FROM AUTHOR]

Published

2013

12. Mott Physics near the Insulator-To-Metal Transition in NdNiO3.

Author

Stewart, M. K., Jian Liu, Kareev, M., Chakhalian, J., and Basov, D. N.

Subjects

*PHASE transitions, *THIN films, *METAL-insulator transitions, *ENERGY transfer, *COULOMB functions

Abstract

An optical study of NdNiO3 ultrathin films with insulating and metallic ground states reveals new aspects of the insulator-to-metal transition that point to Mott physics as the driving force. In contrast with the behavior of charge-ordered systems, we find that the emergence of the Drude resonance across the transition is linked to a spectral weight transfer over an energy range of the order of the Coulomb repulsion U, as the energy gap is filled with states instead of closing continuously. [ABSTRACT FROM AUTHOR]

Published

2011

13. Strain-dependent transport properties of the ultra-thin correlated metal, LaNiO3.

Author

Moon, E. J., Gray, B. A., Kareev, M., Liu, J., Altendorf, S. G., Strigari, F., Tjeng, L. H., Freeland, J. W., and Chakhalian, J.

Subjects

*LANTHANUM compounds, *QUANTUM theory, *ELECTRON-electron interactions, *THICK films, *LOW temperatures, *PHYSICS

Abstract

We explore the electrical transport and magneto-conductance (MC) in quasi-two-dimensional strongly correlated ultra-thin films of LaNiO3 (LNO) to investigate the effect of hetero-epitaxial strain on electron-electron and electron-lattice interactions from the low to intermediate temperature range (2-170 K). The fully epitaxial 10 unit cell thick films spanning tensile strain up to ~4% are used to investigate the effects of enhanced carrier localization driven by a combination of weak localization (WL) and electron-electron interactions at low temperatures. The MC data show the importance of the increased contribution of WL to low-temperature quantum corrections. The obtained results demonstrate that with increasing tensile strain and reduced temperature, the quantum-confined LNO system gradually evolves from the Mott into the Mott-Anderson regime. [ABSTRACT FROM AUTHOR]

Published

2011

14. Epitaxial growth of (111)-oriented LaAlO3/LaNiO3 ultra-thin superlattices.

Author

Middey, S., Meyers, D., Kareev, M., Moon, E. J., Gray, B. A., Liu, X., Freeland, J. W., and Chakhalian, J.

Subjects

*EPITAXY, *SUPERLATTICES, *POLARITY (Physics), *X-ray diffraction, *ELECTRON diffraction, *X-ray spectroscopy

Abstract

The epitaxial stabilization of a single layer or superlattice structures composed of complex oxide materials on polar (111) surfaces is severely burdened by the reconstructions at the interface that commonly arise to neutralize the polarity. We report on the synthesis of high quality LaNiO3/mLaAlO3 pseudo cubic (111) superlattices on polar (111)-oriented LaAlO3, the proposed complex oxide candidate for a topological insulating behavior. Comprehensive X-Ray diffraction measurements, reflection high energy electron diffraction, and element specific resonant X-ray absorption spectroscopy affirm their high structural and chemical quality. The study offers an opportunity to fabricate interesting interface and topology controlled (111)-oriented superlattices based on ortho-nickelates. [ABSTRACT FROM AUTHOR]

Published

2012

15. In-situ fabrication and transport properties of (111) Y2Ir2O7 epitaxial thin film.

Author

Liu, Xiaoran, Wen, Fangdi, Karapetrova, E., Kim, J.-W., Ryan, P. J., Freeland, J. W., Terilli, M., Wu, T.-C., Kareev, M., and Chakhalian, J.

Subjects

*THIN films, *MAGNETIC transitions, *SOLUTION (Chemistry), *X-ray diffraction, *EPITAXY

Abstract

We report on the successful fabrication of (111) oriented thin films of pyrochlore iridate Y2Ir2O7 by means of solid phase epitaxy. Essentially, we developed an entirely in situ annealing protocol, which is superior to the conventional ex-situ routine that requires multi-hour annealing to stabilize the proper pyrochlore structure. The morphological quality of the films has been confirmed by x-ray diffraction, reflectivity, and reciprocal space mapping, demonstrating their high crystallinity with a pure pyrochlore phase and an expected epitaxial relation to the substrate. Strikingly, below the magnetic phase transition, the temperature dependence of resistivity shows a power-law behavior with the power exponent of ∼3/2, characteristic of a Weyl semimetal in the presence of impurities and electron–electron correlations. Below 10 K, the magneto-transport measurements reveal the emergence of a non-saturated negative magnetoresistance up to 9 T with a small "valley" around zero field. These findings are further interpreted in relation to the weak anti-localization effect and the non-collinear antiferromagnetic ordering on the Ir sublattice. [ABSTRACT FROM AUTHOR]

Published

2020

16. Probing Electronic and Magnetic Transitions of Short Periodic Nickelate Superlattices Using Synchrotron X-rays.

Author

Middey, S., Patel, R. K., Meyers, D., Shafer, P., Kareev, M., Freeland, J. W., Kim, J.-W., Ryan, P. J., and Chakhalian, J.

Subjects

*MAGNETIC transitions, *CONDENSED matter physics, *SUPERLATTICES, *SYNCHROTRONS, *MAGNETIC circular dichroism, *X-rays, *ELECTRON gas, *X-ray absorption

Published

2020

17. Disentangled Cooperative Orderings in Artificial Rare-Earth Nickelates.

Author

Middey, S., Meyers, D., Kareev, M., Yanwei Cao, Liu, X., Shafer, P., Freeland, J. W., Kim, J.-W., Ryan, P. J., and Chakhalian, J.

Subjects

*RARE earth oxides, *SUPERLATTICES, *METAL-insulator transitions

Abstract

Coupled transitions between distinct ordered phases are important aspects behind the rich phase complexity of correlated oxides that hinder our understanding of the underlying phenomena. For this reason, fundamental control over complex transitions has become a leading motivation of the designer approach to materials. We have devised a series of new superlattices by combining a Mott insulator and a correlated metal to form ultrashort period superlattices, which allow one to disentangle the simultaneous orderings in RENiO3. Tailoring an incommensurate heterostructure period relative to the bulk charge ordering pattern suppresses the charge order transition while preserving metal-insulator and antiferromagnetic transitions. Such selective decoupling of the entangled phases resolves the long-standing puzzle about the driving force behind the metal-insulator transition and points to the site-selective Mott transition as the operative mechanism. This designer approach emphasizes the potential of heterointerfaces for selective control of simultaneous transitions in complex materials with entwined broken symmetries. [ABSTRACT FROM AUTHOR]

Published

2018

18. Phase engineering of rare earth nickelates by digital synthesis.

Author

Middey, S., Kumar Patel, Ranjan, Meyers, D., Liu, X., Kareev, M., Chakhalian, J., Shafer, P., Kim, J.-W., and Ryan, P. J.

Subjects

*MAGNETIC properties, *SUPERLATTICES, *ELECTRON diffraction, *X-ray diffraction

Abstract

We report on the electronic and magnetic properties of a series of [m EuNiO3/p LaNiO3] superlattices (thickness m and/or p = 1 unit cell) epitaxially grown on single crystalline NdGaO3 substrates. The structural symmetry of these films has been investigated by the combination of in-situ reflection high energy electron diffraction and X-ray diffraction measurements. The metal-insulator transition and the magnetic transition temperatures of the short-period superlattices with m ≥ p are modified from the corresponding bulk Eu1–xLaxNiO3 (x = p m + p ) composition. In contrast to the corresponding bulk doped compound with x = 0.67, the [1 EuNiO3/2 LaNiO3] film remains metallic down to at least 2 K without signs of electronic or magnetic transitions. These findings demonstrate the power of the digital synthesis approach to realize electronic and magnetic phases of perovskite nickelates, unattainable in bulk. [ABSTRACT FROM AUTHOR]

Published

2018

19. Reconstruction-stabilized epitaxy of LaCoO3/SrTiO3(111) heterostructures by pulsed laser deposition.

Author

Hu, Minhui, Zhang, Qinghua, Gu, Lin, Guo, Qinlin, Cao, Yanwei, Kareev, M., Chakhalian, J., and Guo, Jiandong

Subjects

*EPITAXY, *HETEROSTRUCTURES, *PULSED laser deposition, *GRAPHENE, *PEROVSKITE, *TRANSITION metal oxides, *QUANTUM spin Hall effect

Abstract

Unlike widely explored complex oxide heterostructures grown along [001], the study of [111]- oriented heterointerfaces is very limited thus far. One of the main challenges is to overcome the polar discontinuity that hinders the epitaxy of atomically sharp interfaces. Here, by taking LaCoO3/ SrTiO3(111) as a prototype, we show that the reconstruction, which effectively compensates the surface polarity, can stabilize the epitaxy of the heterostructure with polar discontinuity. A reconstructed substrate surface is prepared, while the growth is controlled to form reconstruction on the film surface. To suppress the chemical diffusion across the interface, the growth is interrupted between each unit cell layer to allow the lattice relaxation at a lowered temperature. In this way, high quality two-dimensional growth is realized and the heterointerfaces exhibit sharpness at the atomic scale. Our work provides a path to precisely control the growth of complex oxide heterostructures along polar orientations that exhibit emergent quantum phenomena. [ABSTRACT FROM AUTHOR]

Published

2018

20. Magnetic Interactions at the Nanoscale in Trilayer Titanates.

Author

Yanwei Cao, Zhenzhong Yang, Kareev, M., Xiaoran Liu, Meyers, D., Middey, S., Choudhury, D., Shafer, P., Jiandong Guo, Freeland, J. W., Arenholz, E., Lin Gu, and Chakhalian, J.

Subjects

*TITANATES, *PHASE diagrams, *MAGNETIC moments

Abstract

We report on the phase diagram of competing magnetic interactions at the nanoscale in engineered ultrathin trilayer heterostructures of LaTiO3/SrTiO3/YTiO3, in which the interfacial inversion symmetry is explicitly broken. Combined atomic layer resolved scanning transmission electron microscopy with electron energy loss spectroscopy and electrical transport have confirmed the formation of a spatially separated two-dimensional electron liquid and high density two-dimensional localized magnetic moments at the LaTiO3/SrTiO3 and SrTiO3/YTiO3 interfaces, respectively. Resonant soft x-ray linear dichroism spectroscopy has demonstrated the presence of orbital polarization of the conductive LaTiO3/SrTiO3 and localized SrTiO3/YTiO3 electrons. Our results provide a route with prospects for exploring new magnetic interfaces, designing a tunable two-dimensional d-electron Kondo lattice, and potential spin Hall applications. [ABSTRACT FROM AUTHOR]

Published

2016

21. Orbital configuration in CaTiO3 films on NdGaO3.

Author

Yanwei Cao, Park, Se Young, Xiaoran Liu, Choudhury, D., Middey, S., Meyers, D., Kareev, M., Shafer, P., Arenholz, E., and Chakhalian, J.

Subjects

*ELECTRODE reactions, *ELECTRONIC structure, *PULSED laser deposition, *X-ray absorption, *LINEAR dichroism

Abstract

Despite its use as a constituent layer for realization of a polar metal and interfacial conductivity, the microscopic study of electronic structure of CaTiO3 is still very limited. Here, we epitaxially stabilized CaTiO3 films on NdGaO3 (110) substrates in a layer-by-layer way by pulsed laser deposition. The structural and electronic properties of the films were characterized by reflection high-energy-electron-diffraction, X-ray diffraction, and element-specific resonant X-ray absorption spectroscopy. To reveal the orbital polarization and the crystal field splitting of the titanium 3d state, X-ray linear dichroism was carried out on CaTiO3 films, demonstrating the orbital configuration of dxz/dyz

Published

2016

22. Magnetism and electronic structure of YTiO3 thin films.

Author

Yanwei Cao, Shafer, P., Xiaoran Liu, Meyers, D., Kareev, M., Middey, S., Freeland, J. W., Arenholz, E., and Chakhalian, J.

Subjects

*ELECTRONIC structure, *YTTRIUM compounds, *THIN films, *MAGNETISM, *EPITAXY, *PULSED laser deposition

Abstract

High-quality (001)-oriented (pseudo-cubic notation) ferromagnetic YTiO3 thin films were epitaxially synthesized in a layer-by-layer way by pulsed laser deposition. Structural, magnetic, and electronic properties were characterized by reflection-high-energy-electron-diffraction, X-ray diffraction, vibrating sample magnetometry, and element-resolved resonant soft X-ray absorption spectroscopy. To reveal ferromagnetism of the constituent titanium ions, X-ray magnetic circular dichroism spectroscopy was carried out using four detection modes probing complementary spatial scale, which overcomes a challenge of probing ferromagnetic titanium with pure Ti3+(3d¹). Our work provides a pathway to distinguish between the roles of titanium and A-site magnetic rareearth cations in determining the magnetism in rare-earth titanates thin films and heterostructures. [ABSTRACT FROM AUTHOR]

Published

2015

23. Epitaxial growth of (111)-oriented spinel CoCr2O4/Al2O3 heterostructures.

Author

Xiaoran Liu, Choudhury, D., Yanwei Cao, Middey, S., Kareev, M., Meyers, D., Kim, J.-W., Ryan, P., and Chakhalian, J.

Subjects

*HETEROSTRUCTURES, *CRYSTALS, *PULSED laser deposition, *HIGH energy electron diffraction, *ATOMIC force microscopy, *STOICHIOMETRY, *X-ray diffraction

Abstract

High quality (111)-oriented CoCr2O4/Al2O3 heterostructures were synthesized on the sapphire (0001) single crystal substrates by pulsed laser deposition. The structural properties are demonstrated by in-situ reflection high energy electron diffraction, atomic force microscopy, X-ray reflectivity, and X-ray diffraction. X-ray photoemission spectroscopy confirms that the films possess the proper chemical stoichiometry. This work offers a pathway to fabricating spinel type artificial quasi-two-dimensional frustrated lattices by means of geometrical engineering. [ABSTRACT FROM AUTHOR]

Published

2015

24. Epitaxial growth of (111)-oriented spinel CoCr2O4/Al2O3 heterostructures.

Author

Liu, Xiaoran, Choudhury, D., Cao, Yanwei, Middey, S., Kareev, M., Meyers, D., Kim, J.-W., Ryan, P., and Chakhalian, J.

Subjects

*ATOMIC layer epitaxial growth, *COBALT chromite, *ALUMINUM oxide synthesis, *HETEROSTRUCTURES, *SAPPHIRES, *PULSED laser deposition, *REFLECTION high energy electron diffraction

Abstract

High quality (111)-oriented CoCr2O4/Al2O3 heterostructures were synthesized on the sapphire (0001) single crystal substrates by pulsed laser deposition. The structural properties are demonstrated by in-situ reflection high energy electron diffraction, atomic force microscopy, X-ray reflectivity, and X-ray diffraction. X-ray photoemission spectroscopy confirms that the films possess the proper chemical stoichiometry. This work offers a pathway to fabricating spinel type artificial quasi-two-dimensional frustrated lattices by means of geometrical engineering. [ABSTRACT FROM AUTHOR]

Published

2015

25. Polarity compensation in ultra-thin films of complex oxides: The case of a perovskite nickelate.

Author

Middey, S., Rivero, P., Meyers, D., Kareev, M., Liu, X., Cao, Y., Freeland, J. W., Barraza-Lopez, S., and Chakhalian, J.

Subjects

*POLARITY (Chemistry), *THIN films, *PEROVSKITE, *NICKEL compounds, *X-ray diffraction, *X-ray spectroscopy, *ELECTRIC fields

Abstract

We address the fundamental issue of growth of perovskite ultra-thin films under the condition of a strong polar mismatch at the hetero-interface exemplified by the growth of a correlated metal LaNiO3 on the band insulator SrTiO3 along the pseudo cubic [111] direction. While in general the metallic LaNiO3 film can effectively screen this polarity mismatch, we establish that in the ultra-thin limit, films are insulating in nature and require additional chemical and structural reconstruction to compensate for such mismatch. A combination of in-situ reflection high-energy electron diffraction recorded during the growth, X-ray diffraction, and synchrotron based resonant X-ray spectroscopy reveal the formation of a chemical phase La2Ni2O5 (Ni2+ ) for a few unit-cell thick films. First-principles layer-resolved calculations of the potential energy across the nominal LaNiO3/SrTiO3 interface confirm that the oxygen vacancies can efficiently reduce the electric field at the interface. [ABSTRACT FROM AUTHOR]

Published

2014

26. Publisher's Note: Strain-modulated Mott transition in EuNiO3 ultrathin films [Phys. Rev. B 88, 075116 (2013)].

Author

Meyers, D., Middey, S., Kareev, M., van Veenendaal, M., Moon, B. J., Gray, B. A., Jian Liu, Freeland, J. W., and Chakhalian, J.

Subjects

*EUROPIUM compounds, *METAL-insulator transitions

Abstract

A correction to the article "Strain-Modulated Mott Transition in EuNiO3 Ultrathin Films" in the August 16, 2013 is presented.

Published

2013

27. Strain-Controlled Epitaxial Stabilization in UltrathinLaNiO3Films Grown by Pulsed Laser Deposition.

Author

Moon, E. J., Gray, B. A., Pimpinelli, A., Kareev, M., Meyers, D., and Chakhalian, J.

Subjects

*EPITAXY, *LANTHANUM compounds, *THIN films, *PULSED laser deposition, *ACTIVATION energy, *PEROVSKITE, *HETEROSTRUCTURES

Abstract

We report on the epitaxial stabilizationeffect of strain on thegrowth of ultrathin heterostructures of a correlated metal LaNiO3(10 unit cells, ∼3.84 nm; u.c. hereafter) grown ona series of perovskite oxide substrates with both tensile and compressivestrain. An unusual polynomial dependence of the activation energyfor surface relaxation processes in terms of the lattice misfit wasobserved. Our experimental investigations further demonstrate theinfluence of strain relaxation on the self-ordering of complex oxidecompounds in the perovskite structure during high supersaturationmonolayer (interrupted layer-by-layer) deposition. [ABSTRACT FROM AUTHOR]

Published

2013

28. Depth resolved studies of SrTiO3 defects using x-ray excited optical luminescence and cathodoluminescence.

Author

Rosenberg, R. A., Choi, Y., Vijayalakshmi, K., Kareev, M., Tchakhalian, J., Balaz, Snjezana, and Brillson, L. J.

Subjects

*CATHODOLUMINESCENCE, *PHOTOSYNTHETIC oxygen evolution, *SPECTRUM analysis, *DISLOCATIONS in crystals, *X-rays

Abstract

We have performed comparative depth-dependent x-ray excited optical luminescence (XEOL) and depth resolved cathodoluminescence spectroscopy measurements in order to understand the native point defect distribution in three SrTiO3 samples. Both techniques found surface segregation of Ti3+ defects, but apparent differences in the oxygen vacancy distribution. Due to the lower excitation flux densities employed in XEOL, there is a delayed onset ('dead layer') revealed in the oxygen defect depth distribution, which results from band bending near the surface. By modeling the data, we are able to estimate the Ti3+ depth distribution and the depletion layer width. [ABSTRACT FROM AUTHOR]

Published

2013

29. Heterostructuring and strain effects on the infrared optical properties of nickelates.

Author

Stewart, M. K., Brownstead, D., Liu, Jian, Kareev, M., Chakhalian, J., and Basov, D. N.

Subjects

*HETEROSTRUCTURES, *THIN films, *STRAINS & stresses (Mechanics), *NICKEL, *LANTHANUM

Abstract

An optical study of the effects of strain and heterostructuring on nickelates is presented. The optical conductivity data obtained for a series of ultrathin films of NdNiO3 with varying amounts of strain reveal that two mechanisms, each associated with a different energy scale, are responsible for the tuning of the Drude-like spectral weight as a function of strain. Additionally, the optical properties of the LaNiO3 layers in a LaNiO3/LaAlO3 superlattice are investigated, showing that the coherent Drude transport associated with strained LaNiO3 is suppressed due to the presence of the LaAlO3 interlayers. [ABSTRACT FROM AUTHOR]

Published

2012

30. Field-effect diode based on electron-induced Mott transition in NdNiO3.

Author

Lim, W. L., Moon, E. J., Freeland, J. W., Meyers, D. J., Kareev, M., Chakhalian, J., and Urazhdin, S.

Subjects

*DIODES, *MOTT effect (Physics), *METAL-insulator transitions, *OXIDES, *ELECTRIC conductivity

Abstract

We studied an electron-induced metal-insulator transition in a two-terminal device based on oxide NdNiO3. In our device, the NdNiO3 is electrostatically doped by the voltage applied between the terminals, resulting in an asymmetric conductivity with respect to the bias polarity. The asymmetry is temperature-dependent and is most significant near the metal-insulator transition. The I-V characteristics exhibit a strong dependence both on the thermal history and the history of the applied voltage bias. Our two-terminal device represents a simple and efficient route for studies of the effect of electron doping on the metal-insulator transition. [ABSTRACT FROM AUTHOR]

Published

2012

31. Strain-controlled band engineering and self-doping in ultrathin LaNiO3 films.

Author

Moon, E. J., Rondinelli, J. M., Prasai, N., Gray, B. A., Kareev, M., Chakhalian, J., and Cohn, J. L.

Subjects

*STRAINS & stresses (Mechanics), *LANTHANUM compounds, *TEMPERATURE effect, *THERMOELECTRICITY, *ENERGY bands, *MATERIALS compression testing, *CHARGE transfer, *THIN films

Abstract

We report on a systematic study of the temperature-dependent Hall coefficient and thermoelectric power in ultrathin metallic LaNiO3 films that reveal a strain-induced, self-doping carrier transition that is inaccessible in the bulk. As the film strain varies from compressive to tensile at fixed composition and stoichiometry, the evolution of the transport coefficients is strikingly similar to those of bulk hole-doped superconducting cuprates with varying doping level. Density functional calculations reveal that the strain-induced changes in transport properties arise from changes in the low-energy electronic band structure that induce self-doping, a transfer of charge between O p and Ni d states. The results suggest that thin-film epitaxy can serve as a means to vary the charge-carrier concentration in other (negative) charge-transfer gap transition-metal oxides without resorting to chemical substitution. [ABSTRACT FROM AUTHOR]

Published

2012

32. Asymmetric Orbital-Lattice Interactions in Ultrathin Correlated Oxide Films.

Author

Chakhalian, J., Rondinelli, J. M., Liu, Jian, Gray, B. A., Kareev, M., Moon, E. J., Prasai, N., Cohn, J. L., Varela, M., Tung, I. C., Bedzyk, M. J., Altendorf, S. G., Strigari, F., Dabrowski, B., Tjeng, L. H., Ryan, P. J., and Freeland, J. W.

Subjects

*THIN films, *DENSITY functionals, *X-ray spectroscopy, *METAL complexes, *STRAINS & stresses (Mechanics)

Abstract

Using resonant x-ray spectroscopies combined with density functional calculations, we find an asymmetric biaxial strain-induced d-orbital response in ultrathin films of the correlated metal LaNiO3 which are not accessible in the bulk. The sign of the misfit strain governs the stability of an octahedral "breathing" distortion, which, in turn, produces an emergent charge-ordered ground state with an altered ligand-hole density and bond covalency. Control of this new mechanism opens a pathway to rational orbital engineering, providing a platform for artificially designed Mott materials. [ABSTRACT FROM AUTHOR]

Published

2011

33. Quantum confinement of Mott electrons in ultrathin LaNiO3/LaAlO3 superlattices.

Author

Jian Liu, Okamoto, S., van Veenendaal, M., Kareev, M., Gray, B., Ryan, P., Freeland, J. W., and Chakhalian, J.

Subjects

*ELECTRONS, *CONSTITUTION of matter, *SUPERLATTICES, *QUANTUM theory, *X-ray spectroscopy, *ABSORPTION spectra

Abstract

We investigate the electronic reconstruction in (LaNiO3)n/(LaAlO3)3 (n=3, 5, and 10) superlattices due to the quantum confinement (QC) by dc transport and resonant soft x-ray absorption spectroscopy. In proximity to the QC limit, a Mott-type transition from an itinerant electron behavior to a localized state is observed. The system exhibits tendency toward charge-order during the transition. Ab initio cluster calculations are in good agreement with the absorption spectra, indicating that the apical ligand hole density is highly suppressed, resulting in a strong modification of the electronic structure. At the dimensional crossover cellular dynamical-mean-field calculations support the emergence of a Mott insulator ground state in the heterostructured ultrathin slab of LaNiO3. [ABSTRACT FROM AUTHOR]

Published

2011

34. Optical study of strained ultrathin films of strongly correlated LaNiO3.

Author

Stewart, M. K., Yee, C.-H., Jian Liu, Kareev, M., Smith, R. K., Chapler, B. C., Varela, M., Ryan, P. J., Haule, K., Chakhalian, J., and Basov, D. N.

Subjects

*PHYSICS research, *THIN films, *TENSILE architecture, *COATING processes, *TEMPERATURE, *THERMAL conductivity

Abstract

An optical study of fully strained ultrathin LaNiO3 films is presented and compared with LDA?+?DMFT calculations. LaNiO3 films were grown by pulsed laser deposition on LaAlO3 and SrTiO3 substrates which provide compressive and tensile strain, respectively. Optical conductivity data show a Drude peak with a spectral weight that is significantly reduced compared to that obtained from LDA calculations. The extended Drude analysis reveals the presence of a pseudogap around 80 meV for the film on SrTiO3 and near 40 meV, at low temperature only, for the film on LAO. An unusual temperature dependence of the optical conductivity is observed, with the Drude plasma frequency increasing by up to 20% at low temperature due to spectral weight transfer from bands lying 2-4 eV below the Fermi energy. Such a strong temperature dependence of the Drude spectral weight has previously been reported for correlated electron systems in which a phase transition is present. In LaNiO3, however, no phase transition is observed. [ABSTRACT FROM AUTHOR]

Published

2011

35. Metallic interface in non-SrTiO3 based titanate superlattice.

Author

Xiaoran Liu, Choudhury, D., Yanwei Cao, Kareev, M., Middey, S., and Chakhalian, J.

Subjects

*INTERFACES (Physical sciences), *TITANATES, *TITANIUM dioxide, *SUPERLATTICES, *X-ray diffraction, *MICROFABRICATION

Abstract

We report on the fabrication of all perovskite Mott insulator/band insulator YTiO3/CaTiO3 superlattices by pulsed laser deposition. The combination of in situ reflection high energy electron diffraction, X-ray diffraction, and X-ray reflectivity confirms the high quality of the films grown in a layer-by-layer mode. Electrical transport measurements reveal that a non-SrTiO3 based twodimensional electron gas system has formed at the YTiO3/CaTiO3 interface. These studies offer another route in the pursuit of complex oxide two-dimensional electron gas systems, which allows to obtain greater insights into the exotic many-body phenomena at such interfaces. [ABSTRACT FROM AUTHOR]

Published

2015

36. Strain-modulated Mott transition in EuNiO3 ultrathin films.

Author

Meyers, D., Middey, S., Kareev, M., van Veenendaal, M., Moon, E. J., Gray, B. A., Jian Liu, Freeland, J. W., and Chakhalian, J.

Subjects

*METAL-insulator transitions, *THIN film research, *PHYSICS research

Abstract

A series of ultrathin epitaxial films of EuNiO3 (ENO) were grown on a set of substrates traversing from compressive (-2.4%) to tensile (+2.5%) lattice mismatch. On moving from tensile to compressive strain, transport measurements demonstrate a successively suppressed Mott insulating behavior eventually resulting in a complete suppression of the insulating state at high compressive strain. Corroborating these findings, resonant soft x-ray absorption spectroscopy at the Ni L3,2 edge reveals the presence of a strong multiplet splitting in the tensile strained samples that progressively weakens with increasing compressive strain. Combined with cluster calculations, the results show how cumulatively enhanced covalency (i.e., bandwidth) between Ni d and Oporbital derived states leads to the emergent metallic ground state not attainable in the bulk ENO. [ABSTRACT FROM AUTHOR]

Published

2013

37. Depth-resolved subsurface defects in chemically etched SrTiO3.

Author

Jun Zhang, Doutt, D., Merz, T., Chakhalian, J., Kareev, M., Liu, J., and Brillson, L. J.

Subjects

*CATHODOLUMINESCENCE, *SPECTRUM analysis, *PHOTOSYNTHETIC oxygen evolution, *HETEROSTRUCTURES, *SEMICONDUCTORS, *ELECTRIC potential

Abstract

Depth-resolved cathodoluminescence spectroscopy of atomically flat TiO2-terminated SrTiO3 single crystal surfaces reveals dramatic differences in native point defects produced by conventional etching with buffered HF (BHF) and an alternative procedure using HCl–HNO3 acidic solution (HCLNO), which produces three times fewer oxygen vacancies before and nearly an order of magnitude fewer after pure oxygen annealing. BHF-produced defect densities extend hundreds of nanometers below the surface, whereas the lower HCLNO-treated densities extend less than 50 nm. This “Arkansas” HCLNO etch and anneal method avoids HF handling and provides high-quality SrTiO3 surfaces with low native defect density for complex oxide heterostructure growth. [ABSTRACT FROM AUTHOR]

Published

2009

38. Anomalous orbital structure in two-dimensional titanium dichalcogenides.

Author

Pal, Banabir, Cao, Yanwei, Liu, Xiaoran, Wen, Fangdi, Kareev, M., N'Diaye, A. T., Shafer, P., Arenholz, E., and Chakhalian, J.

Abstract

Generally, lattice distortions play a key role in determining the electronic ground states of materials. Although it is well known that trigonal distortions are generic to most two dimensional transition metal dichalcogenides, the impact of this structural distortion on the electronic structure and topological properties has not been understood conclusively. Here, by using a combination of polarization dependent X-ray absorption spectroscopy (XAS), X-ray photoelectron spectroscopy (XPS) and atomic multiplet cluster calculations, we have investigated the electronic structure of titanium dichalcogenides TiX2 (X = S, Se, Te), where the magnitude of the trigonal distortion increase monotonically from S to Se and Te. Our results reveal the presence of an anomalously large crystal field splitting. This unusual kind of crystal field splitting is likely responsible for the unconventional electronic structure of TiX2 compounds and ultimately controls the degree of the electronic phase protection. Our findings also indicate the drawback of the distorted crystal field picture in explaining the observed electronic ground state and emphasize the key importance of trigonal symmetry, metal-ligand hybridization and electron-electron correlations in defining the electronic structures at the Fermi energy. [ABSTRACT FROM AUTHOR]

Published

2019

39. Evolution of ferromagnetism in two-dimensional electron gas of LaTiO3/SrTiO3.

Author

Wen, Fangdi, Cao, Yanwei, Liu, Xiaoran, Pal, B., Middey, S., Kareev, M., and Chakhalian, J.

Subjects

*FERROMAGNETISM, *ELECTRONS, *LEPTONS (Nuclear physics), *TEMPERATURE, *PHOTOELECTRON spectroscopy

Abstract

Understanding, creating, and manipulating spin polarization of two-dimensional electron gases at complex oxide interfaces present an experimental challenge. For example, despite almost a decade long research effort, the microscopic origin of ferromagnetism in LaAlO3/SrTiO3 heterojunctions is still an open question. Here, by using a prototypical two-dimensional electron gas (2DEG) which emerges at the interface between band insulator SrTiO3 and antiferromagnetic Mott insulator LaTiO3, the experiment reveals the evidence for magnetic phase separation in a hole-doped Ti d1 t2g system, resulting in spin-polarized 2DEG. The details of electronic and magnetic properties of the 2DEG were investigated by temperature-dependent d.c. transport, angle-dependent X-ray photoemission spectroscopy, and temperature-dependent magnetoresistance. The observation of clear hysteresis in magnetotransport at low magnetic fields implies spin-polarization from magnetic islands in the hole rich LaTiO3 near the interface. These findings emphasize the role of magnetic instabilities in doped Mott insulators, thus providing another path for designing all-oxide structures relevant to spintronic applications. [ABSTRACT FROM AUTHOR]

Published

2018

40. Phase coexistence and dynamical behavior in NdNiO3 ultrathin films.

Author

Alsaqqa, Ali M., Singh, Sujay, Middey, S., Kareev, M., Chakhalian, J., and Sambandamurthy, G.

Subjects

*PHASE transitions, *NICKEL oxide

Abstract

Rare-earth nickelates exhibit several temperature-driven phase transitions that are tunable by the size of the rare-earth ions, pressure, epitaxial strain in ultrathin films, etc. We investigate the metal-insulator and Neel transitions in a series of NdNiO3 thin films with varying degrees of lattice mismatch using ultralow frequency electrical noise measurements. The noise magnitude follows a 1/f behavior and is Gaussian in the high temperature paramagnetic metallic phase of the films, however deviations are seen in the low temperature paramagnetic and antiferromagnetic insulating phases. The noise magnitude increases by orders of magnitude at temperatures below the metal-insulator transition and is indicative of inhomogeneous electrical conduction arising from phase separation. The inhomogeneous nature of conduction is corroborated by the presence of a large non-Gaussian noise signature in the low temperature phases. Well below the Neel temperature, the noise behavior evolves between Gaussian and non-Gaussian over several hours pointing to dynamically competing ground states with subtle variations within the antiferromagnetic insulating phase. [ABSTRACT FROM AUTHOR]

Published

2017

41. Superconductor to Mott insulator transition in YBa2Cu3O7/LaCaMnO3 heterostructures.

Author

Gray, B. A., Middey, S., Conti, G., Gray, A. X., Kuo, C.-T., Kaiser, A. M., Ueda, S., Kobayashi, K., Meyers, D., Kareev, M., Tung, I. C., Liu, Jian, Fadley, C. S., Chakhalian, J., and Freeland, J. W.

Published

2016

42. Pure electronic metal-insulator transition at the interface of complex oxides.

Author

Meyers, D., Liu, Jian, Freeland, J. W., Middey, S., Kareev, M., Kwon, Jihwan, Zuo, J. M., Chuang, Yi-De, Kim, J. W., Ryan, P. J., and Chakhalian, J.

Published

2016

43. Mott Electrons in an Artificial Graphenelike Crystal of Rare-Earth Nickelate.

Author

Middey, S., Meyers, D., Doennig, D., Kareev, M., Liu, X., Cao, Y., Zhenzhong Yang, Jinan Shi, Lin Gu, Ryan, P. J., Pentcheva, R., Freeland, J. W., and Chakhalian, J.

Subjects

*NICKEL oxides, *SYNTHETIC graphite, *ELECTRONS

Abstract

Deterministic control over the periodic geometrical arrangement of the constituent atoms is the backbone of the material properties, which, along with the interactions, define the electronic and magnetic ground state. Following this notion, a bilayer of a prototypical rare-earth nickelate, NdNiO3, combined with a dielectric spacer, LaAlO3, has been layered along the pseudocubic [111] direction. The resulting artificial graphenelike Mott crystal with magnetic 3d electrons has antiferromagnetic correlations. In addition, a combination of resonant X-ray linear dichroism measurements and ab initio calculations reveal the presence of an ordered orbital pattern, which is unattainable in either bulk nickelates or nickelate based heterostructures grown along the [001] direction. These findings highlight another promising venue towards designing new quantum many-body states by virtue of geometrical engineering. [ABSTRACT FROM AUTHOR]

Published

2016