Your search keyword '"Meyer-Ilse, J."' showing total 16 results

1. Depth-resolved resonant inelastic x-ray scattering at a superconductor/half-metallic-ferromagnet interface through standing wave excitation

Author

Kuo, CT, Lin, SC, Ghiringhelli, G, Peng, Y, De Luca, GM, Di Castro, D, Betto, D, Gehlmann, M, Wijnands, T, Huijben, M, Meyer-Ilse, J, Gullikson, E, Kortright, JB, Vailionis, A, Gauquelin, N, Verbeeck, J, Gerber, T, Balestrino, G, Brookes, NB, Braicovich, L, and Fadley, CS

Subjects

cond-mat.mtrl-sci, cond-mat.str-el, cond-mat.supr-con

Abstract

We demonstrate that combining standing wave (SW) excitation with resonant inelastic x-ray scattering (RIXS) can lead to depth resolution and interface sensitivity for studying orbital and magnetic excitations in correlated oxide heterostructures. SW-RIXS has been applied to multilayer heterostructures consisting of a superconductor La1.85Sr0.15CuO4 (LSCO) and a half-metallic ferromagnet La0.67Sr0.33MnO3 (LSMO). Easily observable SW effects on the RIXS excitations were found in these LSCO/LSMO multilayers. In addition, we observe different depth distribution of the RIXS excitations. The magnetic excitations are found to arise from the LSCO/LSMO interfaces, and there is also a suggestion that one of the dd excitations comes from the interfaces. SW-RIXS measurements of correlated-oxide and other multilayer heterostructures should provide unique layer-resolved insights concerning their orbital and magnetic excitations, as well as a challenge for RIXS theory to specifically deal with interface effects.

Published

2018

2. Atomic-layer-resolved composition and electronic structure of the cuprate B i2 S r2CaC u2 O8+δ from soft x-ray standing-wave photoemission

Author

Kuo, CT, Lin, SC, Conti, G, Pi, ST, Moreschini, L, Bostwick, A, Meyer-Ilse, J, Gullikson, E, Kortright, JB, Nemšák, S, Rault, JE, Le Fèvre, P, Bertran, F, Santander-Syro, AF, Vartanyants, IA, Pickett, WE, Saint-Martin, R, Taleb-Ibrahimi, A, and Fadley, CS

Subjects

cond-mat.supr-con, cond-mat.mtrl-sci, cond-mat.str-el

Abstract

A major remaining challenge in the superconducting cuprates is the unambiguous differentiation of the composition and electronic structure of the CuO2 layers and those of the intermediate layers. The large c axis for these materials permits employing soft x-ray (930.3 eV) standing wave (SW) excitation in photoemission that yields atomic layer-by-layer depth resolution of these properties. Applying SW photoemission to Bi2Sr2CaCu2O8+δ yields the depth distribution of atomic composition and the layer-resolved densities of states. We detect significant Ca presence in the SrO layers and oxygen bonding to three different cations. The layer-resolved valence electronic structure is found to be strongly influenced by the atomic supermodulation structure, as determined by comparison to density functional theory calculations, by Ca-Sr intermixing, and by correlation effects associated with the Cu 3d-3d Coulomb interaction, further clarifying the complex interactions in this prototypical cuprate. Measurements of this type for other quasi-two-dimensional materials with large c represent a promising future direction.

Published

2018

3. Interface properties and built-in potential profile of a LaCr O3/SrTi O3 superlattice determined by standing-wave excited photoemission spectroscopy

Author

Lin, SC, Kuo, CT, Comes, RB, Rault, JE, Rueff, JP, Nemšák, S, Taleb, A, Kortright, JB, Meyer-Ilse, J, Gullikson, E, Sushko, PV, Spurgeon, SR, Gehlmann, M, Bowden, ME, Plucinski, L, Chambers, SA, and Fadley, CS

Subjects

cond-mat.mtrl-sci

Abstract

LaCrO3(LCO)/SrTiO3(STO) heterojunctions are intriguing due to a polar discontinuity along [001], exhibiting two distinct and controllable charged interface structures [(LaO)+/(TiO2)0 and (SrO)0/(CrO2)-] with induced polarization, and a resulting depth-dependent potential. In this study, we have used soft- and hard-x-ray standing-wave excited photoemission spectroscopy (SW-XPS) to quantitatively determine the elemental depth profile, interface properties, and depth distribution of the polarization-induced built-in potentials. We observe an alternating charged interface configuration: a positively charged (LaO)+/(TiO2)0 intermediate layer at the LCOtop/STObottom interface and a negatively charged (SrO)0/(CrO2)- intermediate layer at the STOtop/LCObottom interface. Using core-level SW data, we have determined the depth distribution of species, including through the interfaces, and these results are in excellent agreement with scanning transmission electron microscopy and electron energy-loss spectroscopy mapping of local structure and composition. SW-XPS also enabled deconvolution of the LCO and STO contributions to the valence-band (VB) spectra. Using a two-step analytical approach involving first SW-induced core-level binding-energy shifts and then VB modeling, the variation in potential across the complete superlattice is determined in detail. This potential is in excellent agreement with density functional theory models, confirming this method as a generally useful tool for interface studies.

Published

2018

4. Interface properties and built-in potential profile of a LaCrO3/SrTiO3 superlattice determined by standing-wave excited photoemission spectroscopy

Author

Lin, S-C, Kuo, C-T, Comes, RB, Rault, JE, Rueff, J-P, Nemšák, S, Taleb, A, Kortright, JB, Meyer-Ilse, J, Gullikson, E, Sushko, PV, Spurgeon, SR, Gehlmann, M, Bowden, ME, Plucinski, L, Chambers, SA, and Fadley, CS

Subjects

Physical Sciences, Chemical Sciences, Physical Chemistry, cond-mat.mtrl-sci, Chemical sciences, Engineering, Physical sciences

Abstract

LaCrO3(LCO)/SrTiO3(STO) heterojunctions are intriguing due to a polar discontinuity along [001], exhibiting two distinct and controllable charged interface structures [(LaO)+/(TiO2)0 and (SrO)0/(CrO2)-] with induced polarization, and a resulting depth-dependent potential. In this study, we have used soft- and hard-x-ray standing-wave excited photoemission spectroscopy (SW-XPS) to quantitatively determine the elemental depth profile, interface properties, and depth distribution of the polarization-induced built-in potentials. We observe an alternating charged interface configuration: a positively charged (LaO)+/(TiO2)0 intermediate layer at the LCOtop/STObottom interface and a negatively charged (SrO)0/(CrO2)- intermediate layer at the STOtop/LCObottom interface. Using core-level SW data, we have determined the depth distribution of species, including through the interfaces, and these results are in excellent agreement with scanning transmission electron microscopy and electron energy-loss spectroscopy mapping of local structure and composition. SW-XPS also enabled deconvolution of the LCO and STO contributions to the valence-band (VB) spectra. Using a two-step analytical approach involving first SW-induced core-level binding-energy shifts and then VB modeling, the variation in potential across the complete superlattice is determined in detail. This potential is in excellent agreement with density functional theory models, confirming this method as a generally useful tool for interface studies.

Published

2018

5. Depth-resolved charge reconstruction at the LaNiO3/CaMnO3 interface

Author

Chandrasena, RU, Flint, CL, Yang, W, Arab, Arian, Nemšák, S, Gehlmann, M, Özdöl, VB, Bisti, F, Wijesekara, KD, Meyer-Ilse, J, Gullikson, E, Arenholz, E, Ciston, J, Schneider, CM, Strocov, VN, Suzuki, Y, and Gray, AX

Subjects

Engineering, Physical Sciences, Condensed Matter Physics, Chemical sciences, Physical sciences

Abstract

Rational design of low-dimensional electronic phenomena at oxide interfaces is currently considered to be one of the most promising schemes for realizing new energy-efficient logic and memory devices. An atomically abrupt interface between paramagnetic LaNiO3 and antiferromagnetic CaMnO3 exhibits interfacial ferromagnetism, which can be tuned via a thickness-dependent metal-insulator transition in LaNiO3. Once fully understood, such emergent functionality could turn this archetypal Mott-interface system into a key building block for the above-mentioned future devices. Here, we use depth-resolved standing-wave photoemission spectroscopy in conjunction with scanning transmission electron microscopy and x-ray absorption spectroscopy, to demonstrate a depth-dependent charge reconstruction at the LaNiO3/CaMnO3 interface. Our measurements reveal an increased concentration of Mn3+ and Ni2+ cations at the interface, which create an electronic environment favorable for the emergence of interfacial ferromagnetism mediated via the Mn4+-Mn3+ ferromagnetic double exchange and Ni2+-O-Mn4+ superexchange mechanisms. Our findings suggest a strategy for designing functional Mott oxide heterostructures by tuning the interfacial cation characteristics via controlled manipulation of thickness, strain, and ionic defect states.

Published

2018

6. Soft x-ray optical constants of sputtered chromium thin films with improved accuracy in the L and M absorption edge regions

Author

Delmotte, F, Meyer-Ilse, J, Salmassi, F, Soufli, R, Burcklen, C, Rebellato, J, Jérome, A, Vickridge, I, Briand, E, and Gullikson, E

Subjects

Applied Physics, Mathematical Sciences, Physical Sciences, Engineering

Abstract

In this study, we determine with improved accuracy the complex index of refraction n = 1 - δ + iβ of sputtered chromium thin films for photon energies ranging from 25 eV to 813 eV. These data include the first absolute measurements of the absorption fine structure near the Cr-L edge. First, we verified by combining Rutherford Backscattering Spectrometry and grazing-incidence x-ray reflectometry that the sputtered thin films were pure Cr with a density consistent with tabulated values. Then, we demonstrated that the Cr surface oxide layer remains stable when the samples are exposed to air for up to 4 years. The Cr absorption coefficient β was determined from the transmittance of freestanding Cr thin films with various thicknesses, measured at the ALS synchrotron radiation source. A model is proposed to correct the transmittance data from the spectral contamination of the source. Finally, we used the new β values, combined with theoretical and tabulated data from the literature, in order to calculate the δ values by the Kramers-Kronig relation. The improvement in the accuracy of β values is demonstrated by the f-sum rule. An additional validation of the new Cr optical constants (δ, β) is performed by comparing the simulated and experimental reflectance of a Cr/B4C multilayer mirror near the Cr-L2,3 edge.

Published

2018

7. Interface properties and built-in potential profile of a LaCr O 3 / SrTi O 3 superlattice determined by standing-wave excited photoemission spectroscopy

Author

Lin, S.-C., Kuo, C.-T., Sushko, P. V., Spurgeon, S. R., Gehlmann, M., Bowden, M. E., Plucinski, L., Chambers, S. A., Fadley, C. S., Comes, R. B., Rault, J. E., Rueff, J.-P., Nemsak, Slavomir, Taleb, A., Kortright, J. B., Meyer-Ilse, J., and Gullikson, E.

Subjects

ddc:530

Abstract

LaCrO3(LCO)/SrTiO3(STO) heterojunctions are intriguing due to a polar discontinuity along [001], exhibiting two distinct and controllable charged interface structures [(LaO)+/(TiO2)0 and (SrO)0/(CrO2)−] with induced polarization, and a resulting depth-dependent potential. In this study, we have used soft- and hard-x-ray standing-wave excited photoemission spectroscopy (SW-XPS) to quantitatively determine the elemental depth profile, interface properties, and depth distribution of the polarization-induced built-in potentials. We observe an alternating charged interface configuration: a positively charged (LaO)+/(TiO2)0 intermediate layer at the LCOtop/STObottom interface and a negatively charged (SrO)0/(CrO2)− intermediate layer at the STOtop/LCObottom interface. Using core-level SW data, we have determined the depth distribution of species, including through the interfaces, and these results are in excellent agreement with scanning transmission electron microscopy and electron energy-loss spectroscopy mapping of local structure and composition. SW-XPS also enabled deconvolution of the LCO and STO contributions to the valence-band (VB) spectra. Using a two-step analytical approach involving first SW-induced core-level binding-energy shifts and then VB modeling, the variation in potential across the complete superlattice is determined in detail. This potential is in excellent agreement with density functional theory models, confirming this method as a generally useful tool for interface studies.

Published

2018

8. Depth-resolved charge reconstruction at the LaNi O 3 / CaMn O 3 interface

Author

Chandrasena, R. U., Flint, C. L., Gullikson, E., Arenholz, E., Ciston, J., Schneider, C. M., Strocov, V. N., Suzuki, Y., Gray, A. X., Arab, Arian, Nemsak, Slavomir, Gehlmann, M., Özdöl, V. B., Bisti, F., Wijesekara, K. D., Meyer-Ilse, J., and Yang, W.

Subjects

Condensed Matter::Materials Science, Condensed Matter::Strongly Correlated Electrons, ddc:530

Abstract

Rational design of low-dimensional electronic phenomena at oxide interfaces is currently considered to be one of the most promising schemes for realizing new energy-efficient logic and memory devices. An atomically abrupt interface between paramagnetic LaNiO3 and antiferromagnetic CaMnO3 exhibits interfacial ferromagnetism, which can be tuned via a thickness-dependent metal-insulator transition in LaNiO3. Once fully understood, such emergent functionality could turn this archetypal Mott-interface system into a key building block for the above-mentioned future devices. Here, we use depth-resolved standing-wave photoemission spectroscopy in conjunction with scanning transmission electron microscopy and x-ray absorption spectroscopy, to demonstrate a depth-dependent charge reconstruction at the LaNiO3/CaMnO3 interface. Our measurements reveal an increased concentration of Mn3+ and Ni2+ cations at the interface, which create an electronic environment favorable for the emergence of interfacial ferromagnetism mediated via the Mn4+−Mn3+ ferromagnetic double exchange and Ni2+−O−Mn4+ superexchange mechanisms. Our findings suggest a strategy for designing functional Mott oxide heterostructures by tuning the interfacial cation characteristics via controlled manipulation of thickness, strain, and ionic defect states.

Published

2018

9. Detection of defect populations in superhard semiconductor boron subphosphide B12P2 through X-ray absorption spectroscopy

Author

Huber, S. P., primary, Gullikson, E., additional, Meyer-Ilse, J., additional, Frye, C. D., additional, Edgar, J. H., additional, van de Kruijs, R. W. E., additional, Bijkerk, F., additional, and Prendergast, D., additional

Published

2017

10. Exploiting the P L_2,3 absorption edge for optics: spectroscopic and structural characterization of cubic boron phosphide thin films

Author

Huber, S. P., primary, Medvedev, V. V., additional, Meyer-Ilse, J., additional, Gullikson, E., additional, Padavala, B., additional, Edgar, J. H., additional, Sturm, J. M., additional, van de Kruijs, R. W. E., additional, Prendergast, D., additional, and Bijkerk, F., additional

Published

2016

11. Refraction effects in soft x-ray multilayer blazed gratings

Author

Voronov, D. L., primary, Salmassi, F., additional, Meyer-Ilse, J., additional, Gullikson, E. M., additional, Warwick, T., additional, and Padmore, H. A., additional

Published

2016

12. Branched isomeric 1,2,3-triazolium-based ionic liquids: new insight into structure–property relationships

Author

Lartey, M., primary, Meyer-Ilse, J., additional, Watkins, J. D., additional, Roth, E. A., additional, Bowser, S., additional, Kusuma, V. A., additional, Damodaran, K., additional, Zhou, X., additional, Haranczyk, M., additional, Albenze, E., additional, Luebke, D. R., additional, Hopkinson, D., additional, Kortright, J. B., additional, and Nulwala, H. B., additional

Published

2015

13. Detection of defect populations in superhard semiconductor boron subphosphide B12P2 through X-ray absorption spectroscopy.

Author

Huber, S. P., Gullikson, E., Meyer-Ilse, J., Frye, C. D., Edgar, J. H., Van De Kruijs, R. W. E., Bijkerk, F., and Prendergast, D.

Abstract

Recent theoretical work has shown for the first time how the experimentally observed property of “self-healing” of the superhard semiconductor boron subphosphide (B12P2) arises through a process of mediated defect recombination. Experimental verification of the proposed mechanism would require a method that can detect and distinguish between the various defect populations that can exist in B12P2. X-ray absorption near-edge spectroscopy (XANES) is such a method and in this work we present experimentally collected spectra of B12P2 samples with varying crystalline qualities. By simulating the X-ray spectroscopic signatures of potential crystallographic point defects from first-principles within the density functional theory framework, the presence of defect populations can be determined through spectroscopic fingerprinting. Our results find an increasing propensity for the presence of phosphorus vacancy defects in samples deposited at lower temperatures but no evidence for comparable populations of boron vacancies in all the samples that have been studied. The absence of large amounts of boron vacancies is in line with the “self-healing” property of B12P2. [ABSTRACT FROM AUTHOR]

Published

2017

14. Sub-micron focusing of soft x-ray free electron laser beam

Author

Bajt, S., primary, Chapman, H. N., additional, Nelson, A. J., additional, Lee, R. W., additional, Toleikis, S., additional, Mirkarimi, P., additional, Alameda, J. B., additional, Baker, S. L., additional, Vollmer, H., additional, Graff, R. T., additional, Aquila, A., additional, Gullikson, E. M., additional, Meyer Ilse, J., additional, Spiller, E. A., additional, Krzywinski, J., additional, Juha, L., additional, Chalupský, J., additional, Hájková, V., additional, Hajdu, J., additional, and Tschentscher, T., additional

Published

2009

15. Sub-micron focusing of soft x-ray free electron laser beam.

Author

Bajt, S., Chapman, H. N., Nelson, A. J., Lee, R. W., Toleikis, S., Mirkarimi, P., Alameda, J. B., Baker, S. L., Vollmer, H., Graff, R. T., Aquila, A., Gullikson, E. M., Meyer Ilse, J., Spiller, E. A., Krzywinski, J., Juha, L., Chalupský, J., Hájková, V., Hajdu, J., and Tschentscher, T.

Published

2009

16. Modified bibenzimidazole ligands as spectator ligands in photoactive molecular functional Ru-polypyridine units? Implications from spectroscopy.

Author

Meyer-Ilse J, Bauroth S, Bräutigam M, Schmitt M, Popp J, Beckert R, Rockstroh N, Pilz TD, Monczak K, Heinemann FW, Rau S, and Dietzek B

Subjects

Ligands, Organometallic Compounds chemical synthesis, Photochemical Processes, Quantum Theory, Spectrum Analysis, Raman, Benzimidazoles chemistry, Organometallic Compounds chemistry, Pyridines chemistry, Ruthenium chemistry

Abstract

The photophysical properties of Ruthenium-bipyridine complexes bearing a bibenzimidazole ligand were investigated. The nitrogens on the bibenzimidazole-ligand were protected, by adding either a phenylene group or a 1,2-ethandiyl group, to remove the photophysical dependence of the complex on the protonation state of the bibenzimidazole ligand. This protection results in the bibenzimidazole ligand contributing to the MLCT transition, which is experimentally evidenced by (resonance) Raman scattering in concert with DFT calculations for a detailed mode assignment in the (resonance) Raman spectra.

Published

2014