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1. Imprinted atomic displacements drive spin-orbital order in a vanadate perovskite

Author

Radhakrishnan, P., Rabinovich, K. S., Boris, A. V., Fürsich, K., Minola, M., Christiani, G., Logvenov, G., Keimer, B., and Benckiser, E.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

Perovskites with the generic composition ABO$_3$ exhibit an enormous variety of quantum states such as magnetism, orbital order, ferroelectricity and superconductivity. Their flexible and comparatively simple structure allows for facile chemical substitution and cube-on-cube combination of different compounds in atomically sharp epitaxial heterostructures. However, already in the bulk, the diverse physical properties of perovskites and their anisotropy are determined by small deviations from the ideal perovskite structure, which are difficult to control. Here we show that directional imprinting of atomic displacements in the antiferromagnetic Mott insulator YVO$_3$ is achieved by depositing epitaxial films on different facets of an isostructural substrate. These facets were chosen such that other control parameters, including strain and polarity mismatch with the overlayer, remain unchanged. We use polarized Raman scattering and spectral ellipsometry to detect signatures of staggered orbital and magnetic order, and demonstrate distinct spin-orbital ordering patterns on different facets. These observations can be attributed to the influence of specific octahedral rotation and cation displacement patterns, which are imprinted by the substrate facet, on the covalency of the bonds and the superexchange interactions in YVO$_3$. Well beyond established strain-engineering strategies, our results show that substrate-induced templating of lattice distortion patterns constitutes a powerful pathway for materials design., Comment: 7 pages, 4 figures, Supplemental Material

Published
2024

2. Coupling of electronic and structural degrees of freedom in vanadate superlattices

Author

Radhakrishnan, P., Geisler, B., Fürsich, K., Putzky, D., Wang, Y., Christiani, G., Logvenov, G., Wochner, P., van Aken, P. A., Pentcheva, R., and Benckiser, E.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

Heterostructuring provides different ways to manipulate the orbital degrees of freedom and to tailor orbital occupations in transition metal oxides. However, the reliable prediction of these modifications remains a challenge. Here, we present a detailed investigation of the relationship between the crystal and electronic structure in YVO$_3$-LaAlO$_3$ superlattices by combining ab initio theory, scanning transmission electron microscopy, and x-ray diffraction. Density functional theory simulations including an on-site Coulomb repulsion term, accurately predict the crystal structure and in conjunction with x-ray diffraction, provide an explanation for the lifting of degeneracy of the vanadium $d_{xz}$ and $d_{yz}$ orbitals, that was recently observed in this system. In addition, we unravel the combined effects of electronic confinement and octahedral connectivity by disentangling their impact from that of epitaxial strain. Our results demonstrate that the specific orientation of the substrate and the thickness of the YVO$_3$ slabs in the multilayer, can be utilized to reliably engineer orbital polarization., Comment: 10 pages, 6 figures

Published
2021
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4. Evolution of the metallic state of LaNiO$_3$/LaAlO$_3$ superlattices measured by $^8$Li $\beta$-detected NMR

Author

Karner, V. L., Chatzichristos, A., Cortie, D. L., Fujimoto, D., Kiefl, R. F., Levy, C. D. P., Li, R., McFadden, R. M. L., Morris, G. D., Pearson, M. R., Benckiser, E., Boris, A. V., Cristiani, G., Logvenov, G., Keimer, B., and MacFarlane, W. A.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Using ion-implanted $^8$Li $\beta$-detected NMR, we study the evolution of the correlated metallic state of LaNiO$_3$ in a series of LaNiO$_3$/LaAlO$_3$ superlattices as a function of bilayer thickness. Spin-lattice relaxation measurements in an applied field of 6.55 T reveal two equal amplitude components: one with metallic ($T$-linear) $1/T_{1}$, and a second with a more complex $T$-dependence. The metallic character of the slow relaxing component is only weakly affected by the LaNiO$_3$ thickness, while the fast component is much more sensitive, exhibiting the opposite temperature dependence (increasing towards low $T$) in the thinnest, most magnetic samples. The origin of this bipartite relaxation is discussed.

Published
2021
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5. A superlattice approach to doping infinite-layer nickelates

Author

Ortiz, R. A., Menke, H., Misják, F., Mantadakis, D. T., Fürsich, K., Schierle, E., Logvenov, G., Kaiser, U., Keimer, B., Hansmann, P., and Benckiser, E.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

The recent observation of superconductivity in infinite-layer Nd$_{1-x}$Sr$_x$NiO$_2$ thin films has attracted a lot of attention, since this compound is electronically and structurally analogous to the superconducting cuprates. Due to the challenges in the phase stabilization upon chemical doping with Sr, we synthesized artificial superlattices of LaNiO$_3$ embedded in insulating LaGaO$_3$, and used layer-selective topotactic reactions to reduce the nickelate layers to LaNiO$_{2}$. Hole doping is achieved via interfacial oxygen atoms and tuned via the layer thickness. We used electrical transport measurements, transmission electron microscopy, and x-ray spectroscopy together with ab initio calculations to track changes in the local nickel electronic configuration upon reduction and found that these changes are reversible. Our experimental and theoretical data indicate that the doped holes are trapped at the interfacial quadratic pyramidal Ni sites. Calculations for electron-doped cases predict a different behavior, with evenly distributed electrons among the layers, thus opening up interesting perspectives for interfacial doping of transition metal oxides., Comment: 12 pages, 10 figures

Published
2021
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6. Control of the metal-insulator transition in NdNiO$_3$ thin films through the interplay between structural and electronic properties

Author

Suyolcu, Y. E., Fürsich, K., Hepting, M., Zhong, Z., Lu, Y., Wang, Y., Christiani, G., Logvenov, G., Hansmann, P., Minola, M., Keimer, B., van Aken, P. A., and Benckiser, E.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

Heteroepitaxy offers a new type of control mechanism for the crystal structure, the electronic correlations, and thus the functional properties of transition-metal oxides. Here, we combine electrical transport measurements, high-resolution scanning transmission electron microscopy (STEM), and density functional theory (DFT) to investigate the evolution of the metal-to-insulator transition (MIT) in NdNiO$_3$ films as a function of film thickness and NdGaO$_3$ substrate crystallographic orientation. We find that for two different substrate facets, orthorhombic (101) and (011), modifications of the NiO$_6$ octahedral network are key for tuning the transition temperature $T_{\text{MIT}}$ over a wide temperature range. A comparison of films of identical thickness reveals that growth on [101]-oriented substrates generally results in a higher $T_{\text{MIT}}$, which can be attributed to an enhanced bond-disproportionation as revealed by the DFT+$U$ calculations, and a tendency of [011]-oriented films to formation of structural defects and stabilization of non-equilibrium phases. Our results provide insights into the structure-property relationship of a correlated electron system and its evolution at microscopic length scales and give new perspectives for the epitaxial control of macroscopic phases in metal-oxide heterostructures., Comment: 9 pages, 5 figures

Published
2021
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7. Resonant inelastic x-ray scattering study of bond order and spin excitations in nickelate thin-film structures

Author

Fürsich, K., Lu, Y., Betto, D., Bluschke, M., Porras, J., Schierle, E., Ortiz, R., Suzuki, H., Cristiani, G., Logvenov, G., Brookes, N. B., Haverkort, M. W., Tacon, M. Le, Benckiser, E., Minola, M., and Keimer, B.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We used high-resolution resonant inelastic x-ray scattering (RIXS) at the Ni $L_3$ edge to simultaneously investigate high-energy interband transitions characteristic of Ni-O bond ordering and low-energy collective excitations of the Ni spins in the rare-earth nickelates $R$NiO$_3$ ($R$ = Nd, Pr, La) with pseudocubic perovskite structure. With the support of calculations based on a double-cluster model we quantify bond order (BO) amplitudes for different thin films and heterostructures and discriminate short-range BO fluctuations from long-range static order. Moreover we investigate magnetic order and exchange interactions in spatially confined $R$NiO$_3$ slabs by probing dispersive magnon excitations. While our study of superlattices (SLs) grown in the (001) direction of the perovskite structure reveals a robust non-collinear spin spiral magnetic order with dispersive magnon excitations that are essentially unperturbed by BO modulations and spatial confinement, we find magnons with flat dispersions and strongly reduced energies in SLs grown in the $(111)_{\text{pc}}$ direction that exhibit collinear magnetic order. These results give insight into the interplay of different collective ordering phenomena in a prototypical 3$d$ transition metal oxide and establish RIXS as a powerful tool to quantitatively study several order parameters and the corresponding collective excitations within one experiment., Comment: 13 pages, 8 figures, accepted in Physical Review B

Published
2019
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9. Site-selective Probe of Magnetic Excitations in Rare-earth Nickelates using Resonant Inelastic X-ray Scattering

Author

Lu, Y., Betto, D., Fürsich, K., Suzuki, H., Kim, H. -H., Cristiani, G., Logvenov, G., Brookes, N. B., Benckiser, E., Haverkort, M. W., Khaliullin, G., Tacon, M. Le, Minola, M., and Keimer, B.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We have used high-resolution resonant inelastic x-ray scattering (RIXS) to study a thin film of NdNiO$_3$, a compound whose unusual spin- and bond-ordered electronic ground state has been of long-standing interest. Below the magnetic ordering temperature, we observe well-defined collective magnon excitations along different high-symmetry directions in momentum space. The magnetic spectra depend strongly on the incident photon energy, which we attribute to RIXS coupling to different local electronic configurations of the expanded and compressed NiO$_6$ octahedra in the bond-ordered state. Both the noncollinear magnetic ground state and the observed site-dependent magnon excitations are well described by a model that assumes strong competition between the antiferromagnetic superexchange and ferromagnetic double-exchange interactions. Our study provides direct insight into the magnetic dynamics and exchange interactions of the rare-earth nickelates, and demonstrates that RIXS can serve as a site-selective probe of magnetism in these and other materials., Comment: Phys. Rev. X, in press

Published
2018
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10. Control of dopant crystallinity in electrochemically treated cuprate thin films

Author

Frano, A, Bluschke, M, Xu, Z, Frandsen, B, Lu, Y, Yi, M, Marks, R, Mehta, A, Borzenets, V, Meyers, D, Dean, MPM, Baiutti, F, Maier, J, Kim, G, Christiani, G, Logvenov, G, Benckiser, E, Keimer, B, and Birgeneau, RJ

Abstract

We present a methodology based on ex situ (postgrowth) electrochemistry to control the oxygen concentration in thin films of the superconducting oxide La2CuO4+y grown epitaxially on substrates of isostructural LaSrAlO4. The superconducting transition temperature, which depends on the oxygen concentration, can be tuned by adjusting the pH level of the base solution used for the electrochemical reaction. As our main finding, we demonstrate that the dopant oxygens can either occupy the interstitial layer in an orientationally disordered state or organize into a crystalline phase via a mechanism in which dopant oxygens are inserted into the substrate, changing the lattice symmetry of both the substrate and the epitaxial film. We discuss this mechanism, and we describe the resulting methodology as a platform to be explored in thin films of other transition-metal oxides.

Published
2019

11. Digital modulation of the nickel valence state in a cuprate-nickelate heterostructure

Author

Wrobel, F., Geisler, B., Wang, Y., Christiani, G., Logvenov, G., Bluschke, M., Schierle, E., van Aken, P. A., Pentcheva, R., Benckiser, E., and Keimer, B.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Layer-by-layer oxide molecular beam epitaxy has been used to synthesize cuprate-nickelate multilayer structures of composition (La$_2$CuO$_4$)$_m$/LaO/(LaNiO$_3$)$_n$. In a combined experimental and theoretical study, we show that these structures allow a clean separation of dopant and doped layers. Specifically, the LaO layer separating cuprate and nickelate blocks provides an additional charge that, according to density functional theory calculations, is predominantly accommodated in the interfacial nickelate layers. This is reflected in an elongation of bond distances and changes in valence state, as observed by scanning transmission electron microscopy and x-ray absorption spectroscopy. Moreover, the predicted charge disproportionation in the nickelate interface layers leads to a thickness-dependent metal-to-insulator transition for $n=2$, as observed in electrical transport measurements. The results exemplify the perspectives of charge transfer in metal-oxide multilayers to induce doping without introducing chemical and structural disorder.

Published
2017
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12. Transfer of magnetic order and anisotropy through epitaxial integration of 3$d$ and 4$f$ spin systems

Author

Bluschke, M., Frano, A., Schierle, E., Minola, M., Hepting, M., Christiani, G., Logvenov, G., Weschke, E., Benckiser, E., and Keimer, B.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Resonant x-ray scattering at the Dy $M_5$ and Ni $L_3$ absorption edges was used to probe the temperature and magnetic field dependence of magnetic order in epitaxial LaNiO$_3$-DyScO$_3$ superlattices. For superlattices with 2 unit cell thick LaNiO$_3$ layers, a commensurate spiral state develops in the Ni spin system below 100 K. Upon cooling below $T_{ind} = 18$ K, Dy-Ni exchange interactions across the LaNiO$_3$-DyScO$_3$ interfaces induce collinear magnetic order of interfacial Dy moments as well as a reorientation of the Ni spins to a direction dictated by the strong magneto-crystalline anisotropy of Dy. This transition is reversible by an external magnetic field of 3 T. Tailored exchange interactions between rare-earth and transition-metal ions thus open up new perspectives for the manipulation of spin structures in metal-oxide heterostructures and devices., Comment: PRL, in press

Published
2017
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13. Comparative study of LaNiO$_3$/LaAlO$_3$ heterostructures grown by pulsed laser deposition and oxide molecular beam epitaxy

Author

Wrobel, F., Mark, A. F., Christiani, G., Sigle, W., Habermeier, H. -U., van Aken, P. A., Logvenov, G., Keimer, B., and Benckiser, E.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

Variations in growth conditions associated with different deposition techniques can greatly affect the phase stability and defect structure of complex oxide heterostructures. We synthesized superlattices of the paramagnetic metal LaNiO3 and the large band gap insulator LaAlO3 by atomic layer-by-layer molecular beam epitaxy (MBE) and pulsed laser deposition (PLD) and compared their crystallinity, microstructure as revealed by high-resolution transmission electron microscopy images and resistivity. The MBE samples show a higher density of stacking faults, but smoother interfaces and generally higher electrical conductivity. Our study identifies the opportunities and challenges of MBE and PLD growth and serves as a general guide for the choice of deposition technique for perovskite oxides., Comment: APL in press

Published
2017
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14. Long-range charge density wave proximity effect at cuprate-manganate interfaces

Author

Frano, A., Blanco-Canosa, S., Schierle, E., Lu, Y., Wu, M., Bluschke, M., Minola, M., Christiani, G., Habermeier, H. U., Logvenov, G., Wang, Y., van Aken, P. A., Benckiser, E., Weschke, E., Tacon, M. Le, and Keimer, B.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

The interplay between charge density waves (CDWs) and high-temperature superconductivity is currently under intense investigation. Experimental research on this issue is difficult because CDW formation in bulk copper-oxides is strongly influenced by random disorder, and a long-range-ordered CDW state in high magnetic fields is difficult to access with spectroscopic and diffraction probes. Here we use resonant x-ray scattering in zero magnetic field to show that interfaces with the metallic ferromagnet La$_{2/3}$Ca$_{1/3}$MnO$_3$ greatly enhance CDW formation in the optimally doped high-temperature superconductor YBa$_2$Cu$_3$O$_{6+\delta}$ ($\bf \delta \sim 1$), and that this effect persists over several tens of nm. The wavevector of the incommensurate CDW serves as an internal calibration standard of the charge carrier concentration, which allows us to rule out any significant influence of oxygen non-stoichiometry, and to attribute the observed phenomenon to a genuine electronic proximity effect. Long-range proximity effects induced by heterointerfaces thus offer a powerful method to stabilize the charge density wave state in the cuprates, and more generally, to manipulate the interplay between different collective phenomena in metal oxides., Comment: modified version published in Nature Materials

Published
2016
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15. Quantitative determination of bond order and lattice distortions in nickel oxide heterostructures by resonant x-ray scattering

Author

Lu, Y., Frano, A., Bluschke, M., Hepting, M., Macke, S., Strempfer, J., Wochner, P., Cristiani, G., Logvenov, G., Habermeier, H. -U., Haverkort, M. W., Keimer, B., and Benckiser, E.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We present a combined study of Ni $K$-edge resonant x-ray scattering and density functional calculations to probe and distinguish electronically driven ordering and lattice distortions in nickelate heterostructures. We demonstrate that due to the low crystal symmetry, contributions from structural distortions can contribute significantly to the energy-dependent Bragg peak intensities of a bond-ordered NdNiO$_3$ reference film. For a LaNiO$_3$-LaAlO$_3$ superlattice that exhibits magnetic order, we establish a rigorous upper bound on the bond-order parameter. We thus conclusively confirm predictions of a dominant spin density wave order parameter in metallic nickelates with a quasi-two-dimensional electronic structure.

Published
2016
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17. Dimensionality-tuned electronic structure of nickelate superlattices explored by soft-x-ray angle resolved photoelectron spectroscopy

Author

Berner, G., Sing, M., Pfaff, F., Benckiser, E., Wu, M., Christiani, G., Logvenov, G., Habermeier, H. -U., Kobayashi, M., Strocov, V. N., Schmitt, T., Fujiwara, H., Suga, S., Sekiyama, A., Keimer, B., and Claessen, R.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

The electronic and magnetic properties of epitaxial LaNiO3/LaAlO3 superlattices can be tuned by layer thickness and substrate-induced strain. Here, we report on direct measurements of the k-space-resolved electronic structure of buried nickelate layers in superlattices under compressive strain by soft x-ray photoemission. After disentangling strong extrinsic contributions to the angle-dependent signal caused by photoelectron diffraction, we are able to extract Fermi surface information from our data. We find that with decreasing LaNiO3 thickness down to two unit cells (2 uc) quasiparticle coherence becomes strongly reduced, in accord with the dimension-induced metal-to-insulator transition seen in transport measurements. Nonetheless, on top of a strongly incoherent background a residual Fermi surface can be identified in the 2 uc superlattice whose nesting properties are consistent with the spin-density wave (SDW) instability recently reported. The overall behavior of the Ni 3d spectra and the absence of a complete gap opening indicate that the SDW phase is dominated by strong order parameter fluctuations., Comment: 11 pages, 7 figures

Published
2014
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18. Tunable Charge and Spin Order in PrNiO$_3$ Thin Films and Superlattices

Author

Hepting, M., Minola, M., Frano, A., Cristiani, G., Logvenov, G., Schierle, E., Wu, M., Bluschke, M., Weschke, E., Habermeier, H. U., Benckiser, E., Tacon, M. Le, and Keimer, B.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We have used polarized Raman scattering to probe lattice vibrations and charge ordering in 12 nm thick, epitaxially strained PrNiO$_3$ films, and in superlattices of PrNiO$_3$ with the band-insulator PrAlO$_3$. A carefully adjusted confocal geometry was used to eliminate the substrate contribution to the Raman spectra. In films and superlattices under tensile strain, which undergo a metal-insulator transition upon cooling, the Raman spectra reveal phonon modes characteristic of charge ordering. These anomalous phonons do not appear in compressively strained films, which remain metallic at all temperatures. For superlattices under compressive strain, the Raman spectra show no evidence of anomalous phonons indicative of charge ordering, while complementary resonant x-ray scattering experiments reveal antiferromagnetic order associated with a modest increase in resistivity upon cooling. This confirms theoretical predictions of a spin density wave phase driven by spatial confinement of the conduction electrons., Comment: PRL, in press

Published
2014
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19. Strain and composition dependence of the orbital polarization in nickelate superlattices

Author

Wu, M., Benckiser, E., Haverkort, M. W., Frano, A., Lu, Y., Nwankwo, U., Brück, S., Audehm, P., Goering, E., Macke, S., Hinkov, V., Wochner, P., Christiani, G., Heinze, S., Logvenov, G., Habermeier, H. -U., and Keimer, B.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

A combined analysis of x-ray absorption and resonant reflectivity data was used to obtain the orbital polarization profiles of superlattices composed of four-unit-cell-thick layers of metallic LaNiO3 and layers of insulating RXO3 (R=La, Gd, Dy and X=Al, Ga, Sc), grown on substrates that impose either compressive or tensile strain. This superlattice geometry allowed us to partly separate the influence of epitaxial strain from interfacial effects controlled by the chemical composition of the insulating blocking layers. Our quantitative analysis reveal orbital polarizations up to 25%. We further show that strain is the most effective control parameter, whereas the influence of the chemical composition of the blocking layers is comparatively small., Comment: 9 pages, 8 figures

Published
2013
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20. Orbital superexchange and crystal field simultaneously at play in YVO3: resonant inelastic x-ray scattering at the V L edge and the O K edge

Author

Benckiser, E., Fels, L., Ghiringhelli, G., Sala, M. Moretti, Schmitt, T., Schlappa, J., Strocov, V. N., Mufti, N., Blake, G. R., Nugroho, A. A., Palstra, T. T. M., Haverkort, M. W., Wohlfeld, K., and Grüninger, M.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We report on the observation of orbital excitations in YVO3 by means of resonant inelastic x-ray scattering (RIXS) at energies across the vanadium L3 and oxygen K absorption edges. Due to the excellent experimental resolution we are able to resolve the intra-t2g excitations at 0.1-0.2 eV, 1.07 eV, and 1.28 eV, the lowest excitations from the t2g into the eg levels at 1.86 eV, and further excitations above 2.2 eV. For the intra-t2g excitations at 0.1-0.2 eV, the RIXS peaks show small shifts of the order of 10-40 meV as a function of temperature and of about 13-20 meV as a function of the transferred momentum q||a. We argue that the latter reflects a finite dispersion of the orbital excitations. For incident energies tuned to the oxygen K edge, RIXS is more sensitive to intersite excitations. We observe excitations across the Mott-Hubbard gap and find an additional feature at 0.4 eV which we attribute to two-orbiton scattering, i.e., an exchange of orbitals between adjacent sites. Altogether, these results indicate that both superexchange interactions and the coupling to the lattice are important for a quantitative understanding of the orbital excitations in YVO3., Comment: 14 pages, 10 figures

Published
2013
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21. Orbital control of noncollinear magnetic order in nickelate heterostructures

Author

Frano, A., Schierle, E., Haverkort, M. W., Lu, Y., Wu, M., Blanco-Canosa, S., Nwankwo, U., Boris, A. V., Wochner, P., Cristiani, G., Habermeier, H. U., Logvenov, G., Hinkov, V., Benckiser, E., Weschke, E., and Keimer, B.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

We have used resonant x-ray diffraction to develop a detailed description of antiferromagnetic ordering in epitaxial superlattices based on two-unit-cell thick layers of the strongly correlated metal LaNiO3. We also report reference experiments on thin films of PrNiO3 and NdNiO3. The resulting data indicate a spiral state whose polarization plane can be controlled by adjusting the Ni d-orbital occupation via two independent mechanisms: epitaxial strain and quantum confinement of the valence electrons. The data are discussed in the light of recent theoretical predictions., Comment: 5 pages, 3 figures

Published
2013
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22. Magnetic proximity effect in $\mathbf{YBa_2Cu_3O_7/La_{2/3}Ca_{1/3}MnO_3}$ and $\mathbf{YBa_2Cu_3O_7/LaMnO_{3+\delta}}$ superlattices

Author

Satapathy, D. K., Uribe-Laverde, M. A., Marozau, I., Malik, V. K., Das, S., Wagner, Th., Marcelot, C., Stahn, J., Brück, S., Rühm, A., Macke, S., Tietze, T., Goering, E., Frañó, A., Kim, J. -H., Wu, M., Benckiser, E., Keimer, B., Devishvili, A., Toperverg, B. P., Merz, M., Nagel, P., Schuppler, S., and Bernhard, C.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Using neutron reflectometry and resonant x-ray techniques we studied the magnetic proximity effect (MPE) in superlattices composed of superconducting YBa$_2$Cu$_3$O$_7$ (YBCO) and ferromagnetic-metallic (FM-M) La$_{0.67}$Ca$_{0.33}$MnO$_{3}$ (LCMO) or ferromagnetic-insulating (FM-I) LaMnO$_{3+\delta}$ (LMO). We find that the MPE strongly depends on the electronic state of the manganite layers, being pronounced for the FM-M LCMO and almost absent for FM-I LMO. We also detail the change of the magnetic depth profile due to the MPE and provide evidence for its intrinsic nature., Comment: 5 pages, 4 figures

Published
2011
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23. Dimensionality Control of Electronic Phase Transitions in Nickel-Oxide Superlattices

Author

Boris, A. V., Matiks, Y., Benckiser, E., Frano, A., Popovich, P., Hinkov, V., Wochner, P., Castro-Colin, M., Detemple, E., Malik, V. K., Bernhard, C., Prokscha, T., Suter, A., Salman, Z., Morenzoni, E., Cristiani, G., Habermeier, H. -U., and Keimer, B.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

The competition between collective quantum phases in materials with strongly correlated electrons depends sensitively on the dimensionality of the electron system, which is difficult to control by standard solid-state chemistry. We have fabricated superlattices of the paramagnetic metal LaNiO3 and the wide-gap insulator LaAlO3 with atomically precise layer sequences. Using optical ellipsometry and low-energy muon spin rotation, superlattices with LaNiO3 as thin as two unit cells are shown to undergo a sequence of collective metalinsulator and antiferromagnetic transitions as a function of decreasing temperature, whereas samples with thicker LaNiO3 layers remain metallic and paramagnetic at all temperatures. Metal-oxide superlattices thus allow control of the dimensionality and collective phase behavior of correlated-electron systems.

Published
2011
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24. Orbital reflectometry

Author

Benckiser, E., Haverkort, M. W., Brueck, S., Goering, E., Macke, S., Frano, A., Yang, X., Andersen, O. K., Cristiani, G., Habermeier, H. U., Boris, A. V., Zegkinoglou, I., Wochner, P., Kim, H. J., Hinkov, V., and Keimer, B.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

The occupation of d-orbitals controls the magnitude and anisotropy of the inter-atomic electron transfer in transition metal oxides and hence exerts a key influence on their chemical bonding and physical properties. Atomic-scale modulations of the orbital occupation at surfaces and interfaces are believed to be responsible for massive variations of the magnetic and transport properties, but could thus far not be probed in a quantitative manner. Here we show that it is possible to derive quantitative, spatially resolved orbital polarization profiles from soft x-ray reflectivity data, without resorting to model calculations. We demonstrate that the method is sensitive enough to resolve differences of 3 % in the occupation of Ni e_g orbitals in adjacent atomic layers of a LaNiO3-LaAlO3 superlattice, in good agreement with ab-initio electronic-structure calculations. The possibility to quantitatively correlate theory and experiment on the atomic scale opens up many new perspectives for orbital physics in d-electron materials.

Published
2010
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25. Collective orbital excitations in orbitally ordered YVO3 and HoVO3

Author

Benckiser, E., Rückamp, R., Möller, T., Taetz, T., Möller, A., Nugroho, A. A., Palstra, T. T. M., Uhrig, G. S., and Grüninger, M.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We study orbital excitations in the optical absorption spectra of YVO3 and HoVO3. We focus on an orbital absorption band observed at 0.4 eV for polarization E parallel c. This feature is only observed in the intermediate, monoclinic phase. By comparison with the local crystal-field excitations in VOCl and with recent theoretical predictions for the crystal-field levels we show that this absorption band cannot be interpreted in terms of a local crystal-field excitation. We discuss a microscopic model which attributes this absorption band to the exchange of two orbitals on adjacent sites, i.e., to the direct excitation of two orbitons. This model is strongly supported by the observed dependence on polarization and temperature. Moreover, the calculated spectral weight is in good agreement with the experimental result., Comment: 12 pages, 9 figures

Published
2008
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26. Optical study of orbital excitations in transition-metal oxides

Author

Rückamp, R., Benckiser, E., Haverkort, M. W., Roth, H., Lorenz, T., Freimuth, A., Jongen, L., Möller, A., Meyer, G., Reutler, P., Büchner, B., Revcolevschi, A., Cheong, S. -W., Sekar, C., Krabbes, G., and Grüninger, M.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The orbital excitations of a series of transition-metal compounds are studied by means of optical spectroscopy. Our aim was to identify signatures of collective orbital excitations by comparison with experimental and theoretical results for predominantly local crystal-field excitations. To this end, we have studied TiOCl, RTiO3 (R=La, Sm, Y), LaMnO3, Y2BaNiO5, CaCu2O3, and K4Cu4OCl10, ranging from early to late transition-metal ions, from t_2g to e_g systems, and including systems in which the exchange coupling is predominantly three-dimensional, one-dimensional or zero-dimensional. With the exception of LaMnO3, we find orbital excitations in all compounds. We discuss the competition between orbital fluctuations (for dominant exchange coupling) and crystal-field splitting (for dominant coupling to the lattice). Comparison of our experimental results with configuration-interaction cluster calculations in general yield good agreement, demonstrating that the coupling to the lattice is important for a quantitative description of the orbital excitations in these compounds. However, detailed theoretical predictions for the contribution of collective orbital modes to the optical conductivity (e.g., the line shape or the polarization dependence) are required to decide on a possible contribution of orbital fluctuations at low energies, in particular in case of the orbital excitations at about 0.25 eV in RTiO3. Further calculations are called for which take into account the exchange interactions between the orbitals and the coupling to the lattice on an equal footing., Comment: published version, discussion of TiOCl extended to low T, improved calculation of orbital excitation energies in TiOCl, figure 16 improved, references updated, 33 pages, 20 figures

Published
2005
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27. Complex magnetic order in nickelate slabs

Author

Hepting, M., Green, R. J., Zhong, Z., Bluschke, M., Suyolcu, Y. E., Macke, S., Frano, A., Catalano, S., Gibert, M., Sutarto, R., He, F., Cristiani, G., Logvenov, G., Wang, Y., van Aken, P. A., Hansmann, P., Le Tacon, M., Triscone, J.-M., Sawatzky, G. A., Keimer, B., and Benckiser, E.

Published
2018
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31. Ferromagnetic order controlled by the magnetic interface of LaNiO3/La2/3Ca1/3MnO3 superlattices.

Author

Soltan, S., Macke, S., Ilse, S. E., Pennycook, T., Zhang, Z. L., Christiani, G., Benckiser, E., Schütz, G., and Goering, E.

Subjects
MAGNETIC control, SUPERLATTICES, SCANNING transmission electron microscopy, PARAMAGNETIC materials, PHENOMENOLOGICAL theory (Physics)
Abstract

Interface engineering in complex oxide superlattices is a growing field, enabling manipulation of the exceptional properties of these materials, and also providing access to new phases and emergent physical phenomena. Here we demonstrate how interfacial interactions can induce a complex charge and spin structure in a bulk paramagnetic material. We investigate a superlattice (SLs) consisting of paramagnetic LaNiO3 (LNO) and highly spin-polarized ferromagnetic La2/3Ca1/3MnO3 (LCMO), grown on SrTiO3 (001) substrate. We observed emerging magnetism in LNO through an exchange bias mechanism at the interfaces in X-ray resonant magnetic reflectivity. We find non-symmetric interface induced magnetization profiles in LNO and LCMO which we relate to a periodic complex charge and spin superstructure. High resolution scanning transmission electron microscopy images reveal that the upper and lower interfaces exhibit no significant structural variations. The different long range magnetic order emerging in LNO layers demonstrates the enormous potential of interfacial reconstruction as a tool for tailored electronic properties. [ABSTRACT FROM AUTHOR]

Published
2023
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35. Superlattice approach to doping infinite-layer nickelates

Author

Ortiz, R. A., primary, Menke, H., additional, Misják, F., additional, Mantadakis, D. T., additional, Fürsich, K., additional, Schierle, E., additional, Logvenov, G., additional, Kaiser, U., additional, Keimer, B., additional, Hansmann, P., additional, and Benckiser, E., additional

Published
2021
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36. Orbital engineering in YVO3−LaAlO3 superlattices

Author

Radhakrishnan, P., primary, Geisler, B., additional, Fürsich, K., additional, Putzky, D., additional, Wang, Y., additional, Ilse, S. E., additional, Christiani, G., additional, Logvenov, G., additional, Wochner, P., additional, van Aken, P. A., additional, Goering, E., additional, Pentcheva, R., additional, and Benckiser, E., additional

Published
2021
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37. Control of the metal-insulator transition in NdNiO3 thin films through the interplay between structural and electronic properties

Author

Suyolcu, Y. E., primary, Fürsich, K., additional, Hepting, M., additional, Zhong, Z., additional, Lu, Y., additional, Wang, Y., additional, Christiani, G., additional, Logvenov, G., additional, Hansmann, P., additional, Minola, M., additional, Keimer, B., additional, van Aken, P. A., additional, and Benckiser, E., additional

Published
2021
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38. Nanosession: 2D Electron Systems - Atomic Configurations

Author

Junquera, Javier, primary, García-Fernández, Pablo, additional, Verissimo-Alves, Marcos, additional, Bilc, Daniel I., additional, Ghosez, Philippe, additional, Rahmanizadeh, Kourosh, additional, Bihlmayer, Gustav, additional, Luysberg, Martina, additional, Blügel, Stefan, additional, Chu, M.-W., additional, Chang, C. P., additional, Cheng, S.-L., additional, Lin, J. G., additional, Chen, C. H., additional, Kinyanjui, M. K., additional, Gauquelin, N., additional, Botton, G., additional, Benckiser, E., additional, Keimer, B., additional, Kaiser, U., additional, Gunkel, Felix, additional, Brinks, Peter, additional, Wicklein, Sebastian, additional, Hoffmann-Eifert, Susanne, additional, Dittmann, Regina, additional, Huijben, Mark, additional, Kleibeuker, Josée E., additional, Koster, Gertjan, additional, Rijnders, Guus, additional, Waser, Rainer, additional, Pfaff, F., additional, Müller, A., additional, Boschker, H., additional, Berner, G., additional, Koster, G., additional, Gorgoi, M., additional, Drube, W., additional, Rijnders, G., additional, Kamp, M., additional, Blank, D. H. A., additional, Sing, M., additional, Claessen, R., additional, Sangiovanni, Giorgio, additional, Zhong, Zhicheng, additional, Assmann, Elias, additional, Blaha, Peter, additional, Held, Karsten, additional, and Okamoto, Satoshi, additional

Published
2013
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40. Resonant inelastic x-ray scattering study of bond order and spin excitations in nickelate thin-film structures

Author

Fürsich, K., primary, Lu, Y., additional, Betto, D., additional, Bluschke, M., additional, Porras, J., additional, Schierle, E., additional, Ortiz, R., additional, Suzuki, H., additional, Cristiani, G., additional, Logvenov, G., additional, Brookes, N. B., additional, Haverkort, M. W., additional, Le Tacon, M., additional, Benckiser, E., additional, Minola, M., additional, and Keimer, B., additional

Published
2019
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41. Strain-induced structural transition in DyBa2Cu3O7-x films grown by atomic layer-by-layer molecular beam epitaxy.

Author

Putzky, D., Radhakrishnan, P., Wang, Y., Wochner, P., Christiani, G., Minola, M., van Aken, P. A., Logvenov, G., Benckiser, E., and Keimera, B.

Subjects
MOLECULAR beam epitaxy, SUPERCONDUCTING transition temperature, THIN films
Abstract

We have used atomic layer-by-layer molecular beam epitaxy to synthesize coherently lattice-matched thin films of the high-temperature superconductor DyBa2Cu3O7-x with minimal defect density. A systematic set of x-ray reciprocal-space maps reveals tetragonal and orthorhombic structures with different twinning patterns and elucidates their evolution with the thickness, the oxygenation state, and the epitaxial relationship with the substrate. We also show that films with more pronounced orthorhombicity exhibit lower normal-state resistivities and higher superconducting transition temperatures. These findings provide guidance for the synthesis of optimized superconducting hetero-structures and devices. [ABSTRACT FROM AUTHOR]

Published
2020
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42. Site-Selective Probe of Magnetic Excitations in Rare-Earth Nickelates Using Resonant Inelastic X-ray Scattering

Author

Lu, Y., primary, Betto, D., additional, Fürsich, K., additional, Suzuki, H., additional, Kim, H.-H., additional, Cristiani, G., additional, Logvenov, G., additional, Brookes, N. B., additional, Benckiser, E., additional, Haverkort, M. W., additional, Khaliullin, G., additional, Le Tacon, M., additional, Minola, M., additional, and Keimer, B., additional

Published
2018
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47. Long-range charge-density-wave proximity effect at cuprate/manganate interfaces

Author

Frano, A., primary, Blanco-Canosa, S., additional, Schierle, E., additional, Lu, Y., additional, Wu, M., additional, Bluschke, M., additional, Minola, M., additional, Christiani, G., additional, Habermeier, H. U., additional, Logvenov, G., additional, Wang, Y., additional, van Aken, P. A., additional, Benckiser, E., additional, Weschke, E., additional, Le Tacon, M., additional, and Keimer, B., additional

Published
2016
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48. Quantitative determination of bond order and lattice distortions in nickel oxide heterostructures by resonant x-ray scattering

Author

Lu, Y., primary, Frano, A., additional, Bluschke, M., additional, Hepting, M., additional, Macke, S., additional, Strempfer, J., additional, Wochner, P., additional, Cristiani, G., additional, Logvenov, G., additional, Habermeier, H.-U., additional, Haverkort, M. W., additional, Keimer, B., additional, and Benckiser, E., additional

Published
2016
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49. Magnetic Proximity Effect in YBa₂Cu₃O₇/La2/3Ca1/3MnO₃ and YBa₂Cu₃O₇/LaMnO₃₊ Superlattices

Author

Satapathy, Dillip Kumar, Uribe-Laverde, M. A., Marozau, I., Malik, Vivek K., Das, S., Wagner, Th., Marcelot, C., Stahn, J., Brück, S., Rühm, A., Macke, S., Tietze, T., Goering, E., Frañó, A., Kim, J. -H., Wu, M., Benckiser, E., Keimer, B., Devishvili, A., Toperverg, B. P., Merz, M., Nagel, P., Schuppler, S., and Bernhard, Christian

Subjects
Condensed Matter::Materials Science, Condensed Matter::Strongly Correlated Electrons
Abstract

Using neutron reflectometry and resonant x-ray techniques we studied the magnetic proximity effect (MPE) in superlattices composed of superconducting YBa₂Cu₃O₇ and ferromagnetic-metallic La0.67Ca0.33MnO₃ or ferromagnetic-insulating LaMnO₃₊. We find that the MPE strongly depends on the electronic state of the manganite layers, being pronounced for the ferromagnetic-metallic La0.67Ca0.33MnO₃ and almost absent for ferromagnetic-insulating LaMnO₃₊. We also detail the change of the magnetic depth profile due to the MPE and provide evidence for its intrinsic nature.

Published
2012

50. Magnetic Proximity Effect in YBa2Cu3O7 La2 3Ca1 3MnO3 and YBa2Cu3O7 LaMnO3 delta Superlattices

Author

Satapathy, D.K., Uribe Laverde, M.A., Marozau, I., Malik, V.K., Das, S., Wagner, Th., Marcelot, C., Stahn, J., Brück, S., Rühm, A., Macke, S., Tietze, T., Goering, E., Frano, A., Kim, J. H., Wu, M., Benckiser, E., Keimer, B., Devishvili, A., Toperverg, B.P., Merz, M., Nagel, P., Schuppler, S., and Bernhard, C.

Subjects
coupling, antagonistic superconducting, ferromagnetic, order, thin film, layers
Abstract

Using neutron reflectometry and resonant x ray techniques we studied the magnetic proximity effect MPE in superlattices composed of superconducting YBa2Cu3O7 and ferromagnetic metallic La0.67Ca0.33MnO3 or ferromagnetic insulating LaMnO3 amp; 948;. We find that the MPE strongly depends on the electronic state of the manganite layers, being pronounced for the ferromagnetic metallic La0.67Ca0.33MnO3 and almost absent for ferromagnetic insulating LaMnO3 amp; 948;. We also detail the change of the magnetic depth profile due to the MPE and provide evidence for its intrinsic nature

Published
2012

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