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1. Proximate ferromagnetic state in the Kitaev model material $\alpha$-RuCl$_{3}$

Author

Suzuki, H., Liu, H., Bertinshaw, J., Ueda, K., Kim, H., Laha, S., Weber, D., Yang, Z., Wang, L., Takahashi, H., Fürsich, K., Minola, M., Lotsch, B. V., Kim, B. J., Yavaş, H., Daghofer, M., Chaloupka, J., Khaliullin, G., Gretarsson, H., and Keimer, B.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

$\alpha$-RuCl$_{3}$ is a major candidate for the realization of the Kitaev quantum spin liquid, but its zigzag antiferromagnetic order at low temperatures indicates deviations from the Kitaev model. We have quantified the spin Hamiltonian of $\alpha$-RuCl$_{3}$ by a resonant inelastic x-ray scattering study at the Ru $L_{3}$ absorption edge. In the paramagnetic state, the quasi-elastic intensity of magnetic excitations has a broad maximum around the zone center without any local maxima at the zigzag magnetic Bragg wavevectors. This finding implies that the zigzag order is fragile and readily destabilized by competing ferromagnetic correlations. The classical ground state of the experimentally determined Hamiltonian is actually ferromagnetic. The zigzag state is stabilized via a quantum "order by disorder" mechanism, leaving ferromagnetism -- along with the Kitaev spin liquid -- as energetically proximate metastable states. The three closely competing states and their collective excitations hold the key to the theoretical understanding of the unusual properties of $\alpha$-RuCl$_{3}$ in magnetic fields.

Published
2020
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2. Laser-Induced Transient Magnons in Sr3Ir2O7 Throughout the Brillouin Zone

Author

Mazzone, D. G., Meyers, D., Cao, Y., Vale, J. G., Dashwood, C. D., Shi, Y., James, A. J. A., Robinson, N. J., Lin, J. Q., Thampy, V., Tanaka, Y., Johnson, A. S., Miao, H., Wang, R., Assefa, T. A., Kim, J., Casa, D., Mankowsky, R., Zhu, D., Alonso-Mori, R., Song, S., Yavas, H., Katayama, T., Yabashi, M., Owada, Y. Kubota S., Liu, J., Yang, J., Konik, R. M., Robinson, I. K., Hill, J. P., McMorrow, D. F., Forst, M., Wall, S., Liu, X., and Dean, M. P. M.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Although ultrafast manipulation of magnetism holds great promise for new physical phenomena and applications, targeting specific states is held back by our limited understanding of how magnetic correlations evolve on ultrafast timescales. Using ultrafast resonant inelastic x-ray scattering we demonstrate that femtosecond laser pulses can excite transient magnons at large wavevectors in gapped antiferromagnets, and that they persist for several picoseconds which is opposite to what is observed in nearly gapless magnets. Our work suggests that materials with isotropic magnetic interactions are preferred to achieve rapid manipulation of magnetism., Comment: 6 pages, 4 figures, not including supplemental material; accepted in PNAS

Published
2020
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3. Observation of spin-orbit excitations and Hund's multiplets in Ca$_2$RuO$_4$

Author

Gretarsson, H., Suzuki, H., Kim, Hoon, Ueda, K., Krautloher, M., Kim, B. J., Yavaş, H., Khaliullin, G., and Keimer, B.

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

We use Ru $L_3$-edge (2838.5 eV) resonant inelastic x-ray scattering (RIXS) to quantify the electronic structure of Ca$_2$RuO$_4$, a layered $4d$-electron compound that exhibits a correlation-driven metal-insulator transition and unconventional antiferromagnetism. We observe a series of Ru intra-ionic transitions whose energies and intensities are well described by model calculations. In particular, we find a $\rm{J}=0\rightarrow 2$ spin-orbit excitation at 320 meV, as well as Hund's-rule driven $\rm{S}=1\rightarrow 0$ spin-state transitions at 750 and 1000 meV. The energy of these three features uniquely determines the spin-orbit coupling, tetragonal crystal-field energy, and Hund's rule interaction. The parameters inferred from the RIXS spectra are in excellent agreement with the picture of excitonic magnetism that has been devised to explain the collective modes of the antiferromagnetic state. $L_3$-edge RIXS of Ru compounds and other $4d$-electron materials thus enables direct measurements of interactions parameters that are essential for realistic model calculations., Comment: 9 pages and 4 figures. accepted in PRB

Published
2019
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4. Spin waves and spin-state transitions in a ruthenate high-temperature antiferromagnet

Author

Suzuki, H., Gretarsson, H., Ishikawa, H., Ueda, K., Yang, Z., Liu, H., Kim, H., Kukusta, D., Yaresko, A., Minola, M., Sears, J. A., Francoual, S., Wille, H. -C., Nuss, J., Takagi, H., Kim, B. J., Khaliullin, G., Yavas, H., and Keimer, B.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Ruthenium compounds play prominent roles in materials research ranging from oxide electronics to catalysis, and serve as a platform for fundamental concepts such as spin-triplet superconductivity, Kitaev spin-liquids, and solid-state analogues of the Higgs mode in particle physics. However, basic questions about the electronic structure of ruthenates remain unanswered, because several key parameters (including the Hund's-rule, spin-orbit, and exchange interactions) are comparable in magnitude, and their interplay is poorly understood - partly due to difficulties in synthesizing sizable single crystals for spectroscopic experiments. Here we introduce a resonant inelastic x-ray scattering (RIXS) technique capable of probing collective modes in microcrystals of $4d$-electron materials. We present a comprehensive set of data on spin waves and spin-state transitions in the honeycomb antiferromagnet SrRu$_{2}$O$_{6}$, which possesses an unusually high N\'eel temperature. The new RIXS method provides fresh insight into the unconventional magnetism of SrRu$_{2}$O$_{6}$, and enables momentum-resolved spectroscopy of a large class of $4d$ transition-metal compounds., Comment: The original submitted version of the published manuscript. https://www.nature.com/articles/s41563-019-0327-2

Published
2019
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5. The quartet ground state in CeB$_6$: an inelastic x-ray scattering study

Author

Sundermann, M., Chen, K., Yavaş, H., Lee, Han-Oh, Fisk, Z., Haverkort, M. W., Tjeng, L. H., and Severing, A.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We investigated the ground state symmetry of the cubic hidden order compound CeB$_6$ by means of core level non-resonant inelastic x-ray scattering (NIXS). The information is obtained from the directional dependence of the scattering function that arises from higher than dipole transitions. Our new method confirms that the ground state is well described using a localized crystal-field model assuming a $\Gamma_8$ quartet ground state., Comment: 5 pages, 4 figures

Published
2016
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7. X-ray resonant photoexcitation: line widths and energies of K{\alpha} transitions in highly charged Fe ions

Author

Rudolph, J. K., Bernitt, S., Epp, S. W., Steinbrügge, R., Beilmann, C., Brown, G. V., Eberle, S., Graf, A., Harman, Z., Hell, N., Leutenegger, M., Müller, A., Schlage, K., Wille, H. -C., Yavas, H., Ullrich, J., and López-Urrutia, J. R. Crespo

Subjects
Physics - Atomic Physics
Abstract

Photoabsorption by and fluorescence of the K{\alpha} transitions in highly charged iron ions are essential mechanisms for X-ray radiation transfer in astrophysical environments. We study photoabsorption due to the main K{\alpha} transitions in highly charged iron ions from heliumlike to fluorinelike (Fe 24+...17+) using monochromatic X-rays around 6.6 keV at the PETRA III synchrotron photon source. Natural linewidths were determined with hitherto unattained accuracy. The observed transitions are of particular interest for the understanding of photoexcited plasmas found in X-ray binaries and active galactic nuclei., Comment: Revised version

Published
2013
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9. Observation of phonons with resonant inelastic x-ray scattering

Author

Yavas, H., van Veenendaal, M., Brink, J. van den, Ament, L. J. P., Alatas, A., Leu, B. M., Apostu, M. -O., Wizent, N., Behr, G., Sturhahn, W., Sinn, H., and Alp, E. E.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Phonons, the quantum mechanical representation of lattice vibrations, and their coupling to the electronic degrees of freedom are important for understanding thermal and electric properties of materials. For the first time, phonons have been measured using resonant inelastic x-ray scattering (RIXS) across the Cu K-edge in cupric oxide (CuO). Analyzing these spectra using an ultra-short core-hole lifetime approximation and exact diagonalization techniques, we can explain the essential inelastic features. The relative spectral intensities are related to the electron-phonon coupling strengths., Comment: 11 pages, 3 figures

Published
2010
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11. Design Of A 3D Aerospace Bracket Using Lattice Structures And Topology Optımization For Additive Manufacturing

Author

Ates G.C., Doğru A.H., Gökdağ İ., Yavaş H., Göçer A.C., Demirtunç M., Görgülüarslan, Recep Muhammet, Ates G.C., Doğru A.H., Gökdağ İ., Yavaş H., Göçer A.C., Demirtunç M., and Görgülüarslan, Recep Muhammet

Abstract

American Society of Mechanical Engineers (ASME), ASME 2021 International Mechanical Engineering Congress and Exposition, IMECE 2021 -- 1 November 2021 through 5 November 2021 -- -- 176672, In this study, a design optimization framework is presented that utilizes the topology and lattice structure optimization approaches to design an aerospace component for additive manufacturing (AM). In this framework, the topology optimization is first utilized to find the relative density distribution in the design space of the component that maximizes its stiffness under the volume and strength constraints. The optimized density distribution is used to generate an initial lattice structure topology. A two-step size optimization is also carried out using the beam element formulation in the FEA. The diameters of the strut members in the lattice structure are aimed to be kept within the manufacturability limits of the selective laser melting (SLM) process with AlSi10Mg alloy to satisfy the volume and stress constraints while maximizing the overall stiffness. Optimized designs are determined with four different lattice types. The best design among them is analyzed to ensure an additional natural frequency constraint using modal analysis. Thus, a novel lattice structure design is achieved that satisfies the strength and vibration-specific requirements of the aerospace component for a real-world application. The developed lattice structure design of the aerospace component is achieved with a 30% reduction in weight while still satisfying the desired requirements compared to the existing design in use. The presented lattice design optimization framework is presented in a way that is not application-specific so that it can also be used for the design of different components for AM. The future work includes experimental validation of the strength and vibration performances of the SLM-fabricated design. Copyright © 2021 by ASME

Published
2022

15. The effect of skeletal muscle area and attenuation in patients with sternum fracture due to blunt chest trauma.

Author

YAVAŞ, H. G., UFUK, F., AKÇAY, A., and ÖZTÜRK, G.

Abstract

OBJECTIVE: This study aims to retrospectively investigate the imaging features of patients with sternum fracture (SF) and concomitant organ injuries. We also aimed to evaluate the potential prognostic effect of skeletal muscle area (TMA) and muscle attenuation (MuA) values. PATIENTS AND METHODS: Computed tomography (CT) images of patients with SF were re-evaluated by two observers (Observer-1 and 2). Observer-3 has measured TMA and MuA values. Observer-1 has repeated the measurements blindly to the first measurement results to evaluate the inter-observer agreement. The length of hospital stay, death, hemiplegia, or quadriplegia were investigated from the archives. Mann-Whitney U-test or Student's t-test was used to investigate the relationship between linear variables. The intraclass correlation coefficient (ICC) score was used to evaluate the interobserver agreement. Logistic regression analysis was used to estimate the relative effect of variables by calculating unadjusted odds ratios (ORs) for categorical outcomes. RESULTS: Sixty-five patients had SF and 53 patients had SF and concomitant organ injuries. The most common injuries accompanying SF were rib fracture (73.58%) and lung contusion (60.38%). Manubrium fracture was the most common fracture location (52.3%), and 18 patients (27.7%) had displaced SF. Eight patients (15.1%) were discharged with plegia and five (9.4%) died. Hemothorax, displaced SF and decreased MuA were predictors of prolonged hospital stay, and the presence of cardiac contusion, displaced SF, hemothorax, and vertebra body fracture were independent factors for death. CONCLUSIONS: The presence of a displaced SF and decreased MuA value are important prognostic factors in patients with SF. [ABSTRACT FROM AUTHOR]

Published
2022

16. Persistent octahedral coordination in amorphous GeO$_2$ up to 100 GPa by $K\beta^{\prime\prime}$ X-Ray Emission Spectroscopy

Author

Spiekermann, G., Harder, Manuel, Gilmore, K., Zalden, P., Sahle, Ch. J., Petitgirard, S., Wilke, Max, Biedermann, N., Weis, Christopher, Morgenroth, W., Tse, J. S., Kulik, E., Nishiyama, N., Yavaş, H., and Sternemann, C.

Subjects
ddc:530
Abstract

Physical review / X 9(1), 011025 (2019). doi:10.1103/PhysRevX.9.011025, We measure valence-to-core x-ray emission spectra of compressed crystalline GeO$_2$ up to 56 GPa and of amorphous GeO$_2$ up to 100 GPa. In a novel approach, we extract the Ge coordination number and mean Ge-O distances from the emission energy and the intensity of the $K\beta^{\prime\prime}$ emission line. The spectra of high-pressure polymorphs are calculated using the Bethe-Salpeter equation. Trends observed in the experimental and calculated spectra are found to match only when utilizing an octahedral model. The results reveal persistent octahedral Ge coordination with increasing distortion, similar to the compaction mechanism in the sequence of octahedrally coordinated crystalline GeO$_2$ high-pressure polymorphs., Published by APS, College Park, Md.

Published
2019
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19. Orientation of the ground-state orbital inCeCoIn5andCeRhIn5

Author

Sundermann, M., primary, Amorese, A., additional, Strigari, F., additional, Leedahl, B., additional, Tjeng, L. H., additional, Haverkort, M. W., additional, Gretarsson, H., additional, Yavaş, H., additional, Sala, M. Moretti, additional, Bauer, E. D., additional, Rosa, P. F. S., additional, Thompson, J. D., additional, and Severing, A., additional

Published
2019
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20. Spin waves and spin-state transitions in a ruthenate high-temperature antiferromagnet

Author

Suzuki, H., primary, Gretarsson, H., additional, Ishikawa, H., additional, Ueda, K., additional, Yang, Z., additional, Liu, H., additional, Kim, H., additional, Kukusta, D., additional, Yaresko, A., additional, Minola, M., additional, Sears, J. A., additional, Francoual, S., additional, Wille, H.-C., additional, Nuss, J., additional, Takagi, H., additional, Kim, B. J., additional, Khaliullin, G., additional, Yavaş, H., additional, and Keimer, B., additional

Published
2019
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21. Persistent Octahedral Coordination in Amorphous GeO2 Up to 100 GPa by Kβ′′ X-Ray Emission Spectroscopy

Author

Spiekermann, G., primary, Harder, M., additional, Gilmore, K., additional, Zalden, P., additional, Sahle, Ch. J., additional, Petitgirard, S., additional, Wilke, M., additional, Biedermann, N., additional, Weis, C., additional, Morgenroth, W., additional, Tse, J. S., additional, Kulik, E., additional, Nishiyama, N., additional, Yavaş, H., additional, and Sternemann, C., additional

Published
2019
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22. 4f Crystal Field Ground State of the Strongly Correlated Topological Insulator SmB_{6}

Author

Sundermann, M., Yavaş, H., Chen, K., Kim, D. J., Fisk, Z., Kasinathan, D., Haverkort, M. W., Thalmeier, P., Severing, Andrea, and Tjeng, Liu Hao

Subjects
Condensed Matter - Strongly Correlated Electrons, Strongly Correlated Electrons (cond-mat.str-el), FOS: Physical sciences, ddc:530
Abstract

Physical review letters 120(1), 016402 (2018). doi:10.1103/PhysRevLett.120.016402, We investigated the crystal-electric field ground state of the $4f$ manifold in the strongly correlated topological insulator $SmB_{6}$using core-level nonresonant inelastic x-ray scattering. The directional dependence of the scattering function that arises from higher multipole transitions establishes unambiguously that the $Γ8$ quartet state of the Sm $f^5 J=5/2$ configuration governs the ground-state symmetry and, hence, the topological properties of $SmB_{6}$. Our findings contradict the results of density functional calculations reported so far., Published by APS, College Park, Md.

Published
2017

25. Single-photon excitation of Kα in heliumlike Kr34+: Results supporting quantum electrodynamics predictions

Author

Epp, S., Steinbrügge, R., Bernitt, S., Rudolph, J., Beilmann, C., Bekker, H., Müller, A., Versolato, O., Wille, H., Yavaş, H., Ullrich, J., and Crespo López-Urrutia, J.

Abstract

We study two fundamental transitions from the ground state 1S0 to 1P1 (w line) and 3P1 (y line) in heliumlike Kr34+ by resonant single-photon excitation using an electron-beam ion trap and monochromatic x rays at PETRA III. Our results for the transition energies E(w) = 13114.47(14) eV and E(y) = 13026.15(14) eV are in excellent agreement with quantum electrodynamics calculations, but disagree for w with the average of the hitherto reported experimental results ĒLit(w) = 13115.15(17) eV. Independently of any energy calibration, we obtain a value E(w)/E(y) = 1.006780(7), also in consistency with predictions.

Published
2015

27. Single-photon excitation of K $\alpha$ in heliumlike $\mathrm{Kr^{34+}}$ : Results supporting quantum electrodynamics predictions

Author

Epp, S. W., Steinbrügge, R., Ullrich, J., Crespo López-Urrutia, J. R., Bernitt, S., Rudolph, J. K., Beilmann, C., Bekker, H., Müller, A., Versolato, O. O., Wille, H.-C., and Yavaş, H.

Subjects
ddc:530
Abstract

We study two fundamental transitions from the ground state $^{1}$S$_{0}$ to $^{1}$P$_{1}$ (w line) and $^{3}$P$_{1}$ (y line) in heliumlike Kr$^{34+}$ by resonant single-photon excitation using an electron-beam ion trap and monochromatic x rays at PETRA III. Our results for the transition energies E(w)=13 114.47(14) eV and E(y)=13 026.15(14) eV are in excellent agreement with quantum electrodynamics calculations, but disagree for w with the average of the hitherto reported experimental results E$_{Lit}$(w)=13 115.15(17) eV. Independently of any energy calibration, we obtain a value E(w)/E(y)=1.006 780(7), also in consistency with predictions.

Published
2015

28. Single-photon excitation of K $\alpha$ in heliumlike Kr$^{34+}$ : Results supporting quantum electrodynamics predictions

Author

Epp, S. W., Steinbrügge, R., Bernitt, S., Rudolph, J. K., Beilmann, C., Bekker, H., Müller, A., Versolato, O. O., Wille, H.-C., Yavaş, H., Ullrich, J., and Crespo López-Urrutia, J. R.

Abstract

Physical review / A 92(2), 020502(2015). doi:10.1103/PhysRevA.92.020502, We study two fundamental transitions from the ground state $^{1}$S$_{0}$ to $^{1}$P$_{1}$ (w line) and $^{3}$P$_{1}$ (y line) in heliumlike Kr$^{34+}$ by resonant single-photon excitation using an electron-beam ion trap and monochromatic x rays at PETRA III. Our results for the transition energies E(w)=13 114.47(14) eV and E(y)=13 026.15(14) eV are in excellent agreement with quantum electrodynamics calculations, but disagree for w with the average of the hitherto reported experimental results E$_{Lit}$(w)=13 115.15(17) eV. Independently of any energy calibration, we obtain a value E(w)/E(y)=1.006 780(7), also in consistency with predictions., Published by APS, College Park, Md.

Published
2015
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31. Absolute measurement of radiative and Auger rates ofK−shell−vacancystates in highly charged Fe ions

Author

Steinbrügge, R., primary, Bernitt, S., additional, Epp, S. W., additional, Rudolph, J. K., additional, Beilmann, C., additional, Bekker, H., additional, Eberle, S., additional, Müller, A., additional, Versolato, O. O., additional, Wille, H.-C., additional, Yavaş, H., additional, Ullrich, J., additional, and Crespo López-Urrutia, J. R., additional

Published
2015
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32. Iron speciation in minerals and glasses probed by $$\hbox{M}_{2/3}$$ M 2 / 3 -edge X-ray Raman scattering spectroscopy

Author

Nyrow, A., primary, Sternemann, C., additional, Wilke, M., additional, Gordon, R. A., additional, Mende, K., additional, Yavaş, H., additional, Simonelli, L., additional, Hiraoka, N., additional, Sahle, Ch. J., additional, Huotari, S., additional, Andreozzi, G. B., additional, Woodland, A. B., additional, Tolan, M., additional, and Tse, J. S., additional

Published
2014
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33. X-Ray Resonant Photoexcitation: Linewidths and Energies ofKαTransitions in Highly Charged Fe Ions

Author

Rudolph, J. K., primary, Bernitt, S., additional, Epp, S. W., additional, Steinbrügge, R., additional, Beilmann, C., additional, Brown, G. V., additional, Eberle, S., additional, Graf, A., additional, Harman, Z., additional, Hell, N., additional, Leutenegger, M., additional, Müller, A., additional, Schlage, K., additional, Wille, H.-C., additional, Yavaş, H., additional, Ullrich, J., additional, and Crespo López-Urrutia, J. R., additional

Published
2013
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34. Observation of phonons with resonant inelastic x-ray scattering

Author

Yavaş, H, primary, van Veenendaal, M, additional, van den Brink, J, additional, Ament, L J P, additional, Alatas, A, additional, Leu, B M, additional, Apostu, M-O, additional, Wizent, N, additional, Behr, G, additional, Sturhahn, W, additional, Sinn, H, additional, and Alp, E E, additional

Published
2010
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35. Iron speciation in minerals and glasses probed by $$\hbox{M}_{2/3}$$ -edge X-ray Raman scattering spectroscopy.

Author

Nyrow, A., Sternemann, C., Wilke, M., Gordon, R., Mende, K., Yavaş, H., Simonelli, L., Hiraoka, N., Sahle, Ch., Huotari, S., Andreozzi, G., Woodland, A., Tolan, M., and Tse, J.

Subjects
RAMAN scattering, SPECTRUM analysis, OXIDATION states, X-ray spectroscopy, ELECTRONIC structure, IRON, COORDINATE covalent bond
Abstract

We present a spectroscopic study of the iron $$\hbox{M}_{2/3}$$ -edge for several minerals and compounds to reveal information about the oxidation state and the local coordination of iron. We describe a novel approach to probe the iron $$\hbox{M}_{2/3}$$ -edge bulk sensitively using X-ray Raman scattering. Significant changes in the onset and shape of the Fe $$\hbox{M}_{2/3}$$ -edge were observed on ferrous and ferric model compounds with Fe in octahedral and tetrahedral coordination. Simulation of the spectra is possible using an atomic multiplet code, which potentially allows determination of, e.g., crystal-field parameters in a quantitative manner. A protocol is discussed for determination of the Fe oxidation state in compounds by linear combination of spectra of ferric and ferrous end members. The presented results demonstrate the capabilities of Fe $$\hbox{M}_{2/3}$$ -edge spectroscopy by X-ray Raman scattering to extract information on the ratio of trivalent to total iron $$\hbox{Fe}^{3+}/\sum \hbox{Fe}$$ and local coordination. As X-ray Raman scattering is performed with hard X-rays, this approach is suitable for in situ experiments at high pressure and temperature. It thus may provide indispensable information on oxidation state, electronic structure and local structure of materials that are important for physical and chemical processes of the deep Earth. [ABSTRACT FROM AUTHOR]

Published
2014
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37. 4f Crystal Field Ground State of the Strongly Correlated Topological Insulator SmB6.

Author

Sundermann, M., Yavaş, H., Chen, K., Kim, D. J., Fisk, Z., Kasinathan, D., Haverkort, M. W., Thalmeier, P., Severing, A., and Tjeng, L. H.

Subjects
*ELECTRIC fields, *DENSITY functionals, *TOPOLOGICAL insulators
Abstract

We investigated the crystal-electric field ground state of the 4f manifold in the strongly correlated topological insulator SmB6 using core-level nonresonant inelastic x-ray scattering. The directional dependence of the scattering function that arises from higher multipole transitions establishes unambiguously that the Γ8 quartet state of the Sm f5 J=5/2 configuration governs the ground-state symmetry and, hence, the topological properties of SmB6. Our findings contradict the results of density functional calculations reported so far. [ABSTRACT FROM AUTHOR]

Published
2018
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38. Single-photon excitation of Kα in heliumlike Kr34+: Results supporting quantum electrodynamics predictions.

Author

Epp, S. W., Steinbrügge, R., Bernitt, S., Rudolph, J. K., Beilmann, C., Bekker, H., Müller, A., Versolato, O. O., Wille, H.-C., Yavaş, H., Ullrich, J., and López-Urrutia, J. R. Crespo

Subjects
*SINGLE photon generation, *HELIUM ions, *QUANTUM electrodynamics, *PREDICTION models, *ELECTRON beams
Abstract

We study two fundamental transitions from the ground state ¹S0 to ¹p1 (w line) and ³P1 (y line) in heliumlike Kr34+ by resonant single-photon excitation using an electron-beam ion trap and monochromatic x rays at PETRA III. Our results for the transition energies E(w) = 13114.47(14) eV and E(y) = 13026.15(14) eV are in excellent agreement with quantum electrodynamics calculations, but disagree for w with the average of the hitherto reported experimental results EuLit(w) = 13 115.15(17) eV. Independently of any energy calibration, we obtain a value E(w)/E(y) = 1.006 780(7), also in consistency with predictions. [ABSTRACT FROM AUTHOR]

Published
2015
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39. Absolute measurement of radiative and Auger rates of K-shell-vacancy states in highly charged Fe ions.

Author

Steinbrüg, R., Bernitt, S., Epp, S. W., Rudolph, J. K., Beilmann, C., Bekker, H., Eberle, S., Müller, A., Versolato, O. O., Wille, H.-C., Yavaş, H., Ullrich, J., and López-Urrutia, J. R. Crespo

Subjects
*K-shell emission, *AUGER effect, *IRON ions, *X-ray fluorescence, *PHOTOEXCITATION, *QUANTUM transitions
Abstract

We present absolute measurements of radiative and Auger decay rates of AT-shell vacancies in highly charged iron ions. The ions were resonantly excited with monochromatic x rays from the PETRA III synchrotron source. By measuring x-ray fluorescence and Auger decay simultaneously, absolute transition rates could be determined independently of most experimental parameters. The results confirm theoretical calculations, which are essential to model the photoexcited plasmas in x-ray binary stars and active galactic nuclei. [ABSTRACT FROM AUTHOR]

Published
2015
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40. Towards a wavefront-preservation X-ray crystal monochromator for high-repetition-rate FELs.

Author

Zhang L, Seaberg M, and Yavaş H

Subjects
Radiography, Temperature, Silicon
Abstract

The wavefront preservation of coherent X-ray free-electron laser beams is pushing the requirement on the quality and performance of X-ray optics to an unprecedented level. The Strehl ratio can be used to quantify this requirement. In this paper, the criteria for thermal deformation of the X-ray optics are formulated, especially for crystal monochromators. To preserve the X-ray wavefront, the standard deviation of the height error should be sub-nm for mirrors and less than 25 pm for crystal monochromators. Cryocooled silicon crystals combined with two techniques can be used to achieve this level of performance for monochromator crystals: (1) using a focusing element to compensate the second-order component of the thermal deformation; (2) introducing a cooling pad between the cooling block and silicon crystal and optimizing the effective cooling temperature. Each of these techniques allows the thermal deformation in standard deviation of the height error to be reduced by an order of magnitude. As an example, for the LCLS-II-HE Dynamic X-ray Scattering instrument, the criteria on thermal deformation of a high-heat-load monochromator crystal can be achieved for a 100 W SASE FEL beam. Wavefront propagation simulations confirm that the reflected beam intensity profile is satisfactory on both the peak power density and focused beam size., (open access.)

Published
2023
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41. A portable on-axis laser-heating system for near-90° X-ray spectroscopy: application to ferropericlase and iron silicide.

Author

Spiekermann G, Kupenko I, Petitgirard S, Harder M, Nyrow A, Weis C, Albers C, Biedermann N, Libon L, Sahle CJ, Cerantola V, Glazyrin K, Konôpková Z, Sinmyo R, Morgenroth W, Sergueev I, Yavaş H, Dubrovinsky L, Tolan M, Sternemann C, and Wilke M

Abstract

A portable IR fiber laser-heating system, optimized for X-ray emission spectroscopy (XES) and nuclear inelastic scattering (NIS) spectroscopy with signal collection through the radial opening of diamond anvil cells near 90°with respect to the incident X-ray beam, is presented. The system offers double-sided on-axis heating by a single laser source and zero attenuation of incoming X-rays other than by the high-pressure environment. A description of the system, which has been tested for pressures above 100 GPa and temperatures up to 3000 K, is given. The XES spectra of laser-heated Mg 0.67 Fe 0.33 O demonstrate the potential to map the iron spin state in the pressure-temperature range of the Earth's lower mantle, and the NIS spectra of laser-heated FeSi give access to the sound velocity of this candidate of a phase inside the Earth's core. This portable system represents one of the few bridges across the gap between laser heating and high-resolution X-ray spectroscopies with signal collection near 90°., (open access.)

Published
2020
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42. IRIXS: a resonant inelastic X-ray scattering instrument dedicated to X-rays in the intermediate energy range.

Author

Gretarsson H, Ketenoglu D, Harder M, Mayer S, Dill FU, Spiwek M, Schulte-Schrepping H, Tischer M, Wille HC, Keimer B, and Yavaş H

Abstract

A new resonant inelastic X-ray scattering (RIXS) instrument has been constructed at beamline P01 of the PETRA III synchrotron. This instrument has been named IRIXS (intermediate X-ray energy RIXS) and is dedicated to X-rays in the tender-energy regime (2.5-3.5 keV). The range covers the L 2,3 absorption edges of many of the 4d elements (Mo, Tc, Ru, Rh, Pd and Ag), offering a unique opportunity to study their low-energy magnetic and charge excitations. The IRIXS instrument is currently operating at the Ru L 3 -edge (2840 eV) but can be extended to the other 4d elements using the existing concept. The incoming photons are monochromated with a four-bounce Si(111) monochromator, while the energy analysis of the outgoing photons is performed by a diced spherical crystal analyzer featuring (102) lattice planes of quartz (SiO 2 ). A total resolution of 100 meV (full width at half-maximum) has been achieved at the Ru L 3 -edge, a number that is in excellent agreement with ray-tracing simulations., (open access.)

Published
2020
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43. Performance of quartz- and sapphire-based double-crystal high-resolution (∼10 meV) RIXS monochromators under varying power loads.

Author

Gog T, Casa DM, Knopp J, Kim J, Upton MH, Krakora R, Jaski A, Said A, Yavaş H, Gretarsson H, and Huang XR

Abstract

In the context of a novel, high-resolution resonant inelastic X-ray scattering spectrometer, a flat-crystal-based quartz analyzer system has recently been demonstrated to provide an unprecedented intrinsic-energy resolution of 3.9 meV at the Ir L 3 absorption edge (11.215 keV) [Kim et al. (2018) Sci. Rep. 8, 1958]. However, the overall instrument resolution was limited to 9.7 meV because of an 8.9 meV incident band pass, generated by the available high-resolution four-bounce Si(844) monochromator. In order to better match the potent resolving power of the novel analyzer with the energy band pass of the incident beam, a quartz(309)-based double-bounce, high-resolution monochromator was designed and implemented, expected to yield an overall instrument resolution of 6.0 meV. The choice of lower-symmetry quartz is very attractive because of its wealth of suitable near-backscattering reflections. However, it was found that during room-temperature operation typical levels of incident power, barely affecting the Si monochromator, caused substantial thermal distortions in the first crystal of the quartz monochromator, rendering it practically unusable. Finite-element analyses and heat-flow analyses corroborate this finding. As a high-flux, lower resolution (15.8 meV) alternative, a two-bounce sapphire(078) version was also tested and found to be less affected than quartz, but notably more than silicon.

Published
2018
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44. X-ray Raman spectroscopy of lithium-ion battery electrolyte solutions in a flow cell.

Author

Ketenoglu D, Spiekermann G, Harder M, Oz E, Koz C, Yagci MC, Yilmaz E, Yin Z, Sahle CJ, Detlefs B, and Yavaş H

Abstract

The effects of varying LiPF 6 salt concentration and the presence of lithium bis(oxalate)borate additive on the electronic structure of commonly used lithium-ion battery electrolyte solvents (ethylene carbonate-dimethyl carbonate and propylene carbonate) have been investigated. X-ray Raman scattering spectroscopy (a non-resonant inelastic X-ray scattering method) was utilized together with a closed-circle flow cell. Carbon and oxygen K-edges provide characteristic information on the electronic structure of the electrolyte solutions, which are sensitive to local chemistry. Higher Li + ion concentration in the solvent manifests itself as a blue-shift of both the π* feature in the carbon edge and the carbonyl π* feature in the oxygen edge. While these oxygen K-edge results agree with previous soft X-ray absorption studies on LiBF 4 salt concentration in propylene carbonate, carbon K-edge spectra reveal a shift in energy, which can be explained with differing ionic conductivities of the electrolyte solutions.

Published
2018
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45. Pressure driven spin transition in siderite and magnesiosiderite single crystals.

Author

Weis C, Sternemann C, Cerantola V, Sahle CJ, Spiekermann G, Harder M, Forov Y, Kononov A, Sakrowski R, Yavaş H, Tolan M, and Wilke M

Abstract

Iron-bearing carbonates are candidate phases for carbon storage in the deep Earth and may play an important role for the Earth's carbon cycle. To elucidate the properties of carbonates at conditions of the deep Earth, we investigated the pressure driven magnetic high spin to low spin transition of synthetic siderite FeCO 3 and magnesiosiderite (Mg 0.74 Fe 0.26 )CO 3 single crystals for pressures up to 57 GPa using diamond anvil cells and x-ray Raman scattering spectroscopy to directly probe the iron 3d electron configuration. An extremely sharp transition for siderite single crystal occurs at a notably low pressure of 40.4 ± 0.1 GPa with a transition width of 0.7 GPa when using the very soft pressure medium helium. In contrast, we observe a broadening of the transition width to 4.4 GPa for siderite with a surprising additional shift of the transition pressure to 44.3 ± 0.4 GPa when argon is used as pressure medium. The difference is assigned to larger pressure gradients in case of argon. For magnesiosiderite loaded with argon, the transition occurs at 44.8 ± 0.8 GPa showing similar width as siderite. Hence, no compositional effect on the spin transition pressure is observed. The spectra measured within the spin crossover regime indicate coexistence of regions of pure high- and low-spin configuration within the single crystal.

Published
2017
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46. Probing Transient Valence Orbital Changes with Picosecond Valence-to-Core X-ray Emission Spectroscopy.

Author

March AM, Assefa TA, Boemer C, Bressler C, Britz A, Diez M, Doumy G, Galler A, Harder M, Khakhulin D, Németh Z, Pápai M, Schulz S, Southworth SH, Yavaş H, Young L, Gawelda W, and Vankó G

Abstract

We probe the dynamics of valence electrons in photoexcited [Fe(terpy) 2 ] 2+ in solution to gain deeper insight into the Fe-ligand bond changes. We use hard X-ray emission spectroscopy (XES), which combines element specificity and high penetration with sensitivity to orbital structure, making it a powerful technique for molecular studies in a wide variety of environments. A picosecond-time-resolved measurement of the complete 1s X-ray emission spectrum captures the transient photoinduced changes and includes the weak valence-to-core (vtc) emission lines that correspond to transitions from occupied valence orbitals to the nascent core-hole. Vtc-XES offers particular insight into the molecular orbitals directly involved in the light-driven dynamics; a change in the metal-ligand orbital overlap results in an intensity reduction and a blue energy shift in agreement with our theoretical calculations and more subtle features at the highest energies reflect changes in the frontier orbital populations.

Published
2017
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47. A multi-MHz single-shot data acquisition scheme with high dynamic range: pump-probe X-ray experiments at synchrotrons.

Author

Britz A, Assefa TA, Galler A, Gawelda W, Diez M, Zalden P, Khakhulin D, Fernandes B, Gessler P, Sotoudi Namin H, Beckmann A, Harder M, Yavaş H, and Bressler C

Abstract

The technical implementation of a multi-MHz data acquisition scheme for laser-X-ray pump-probe experiments with pulse limited temporal resolution (100 ps) is presented. Such techniques are very attractive to benefit from the high-repetition rates of X-ray pulses delivered from advanced synchrotron radiation sources. Exploiting a synchronized 3.9 MHz laser excitation source, experiments in 60-bunch mode (7.8 MHz) at beamline P01 of the PETRA III storage ring are performed. Hereby molecular systems in liquid solutions are excited by the pulsed laser source and the total X-ray fluorescence yield (TFY) from the sample is recorded using silicon avalanche photodiode detectors (APDs). The subsequent digitizer card samples the APD signal traces in 0.5 ns steps with 12-bit resolution. These traces are then processed to deliver an integrated value for each recorded single X-ray pulse intensity and sorted into bins according to whether the laser excited the sample or not. For each subgroup the recorded single-shot values are averaged over ∼10 7  pulses to deliver a mean TFY value with its standard error for each data point, e.g. at a given X-ray probe energy. The sensitivity reaches down to the shot-noise limit, and signal-to-noise ratios approaching 1000 are achievable in only a few seconds collection time per data point. The dynamic range covers 100 photons pulse -1 and is only technically limited by the utilized APD.

Published
2016
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48. Resonant inelastic X-ray scattering spectrometer with 25 meV resolution at the Cu K-edge.

Author

Ketenoglu D, Harder M, Klementiev K, Upton M, Taherkhani M, Spiwek M, Dill FU, Wille HC, and Yavaş H

Abstract

An unparalleled resolution is reported with an inelastic X-ray scattering instrument at the Cu K-edge. Based on a segmented concave analyzer, featuring single-crystal quartz (SiO₂) pixels, the spectrometer delivers a resolution near 25 meV (FWHM) at 8981 eV. Besides the quartz analyzer, the performance of the spectrometer relies on a four-bounce Si(553) high-resolution monochromator and focusing Kirkpatrick-Baez optics. The measured resolution agrees with the ray-tracing simulation of an ideal spectrometer. The performance of the spectrometer is demonstrated by reproducing the phonon dispersion curve of a beryllium single-crystal.

Published
2015
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49. Protein elasticity probed with two synchrotron-based techniques.

Author

Leu BM, Alatas A, Sinn H, Alp EE, Said AH, Yavaş H, Zhao J, Sage JT, and Sturhahn W

Subjects
Animals, Horses, Scattering, Radiation, Spectrum Analysis, X-Rays, Cytochrome c Group chemistry, Elasticity
Abstract

Compressibility characterizes three interconnecting properties of a protein: dynamics, structure, and function. The compressibility values for the electron-carrying protein cytochrome c and for other proteins, as well, available in the literature vary considerably. Here, we apply two synchrotron-based techniques--nuclear resonance vibrational spectroscopy and inelastic x-ray scattering--to measure the adiabatic compressibility of this protein. This is the first report of the compressibility of any material measured with this method. Unlike the methods previously used, this novel approach probes the protein globally, at ambient pressure, does not require the separation of protein and solvent contributions to the total compressibility, and uses samples that contain the heme iron, as in the native state. We show, by comparing our results with molecular dynamics predictions, that the compressibility is almost independent of temperature. We discuss potential applications of this method to other materials beyond proteins.

Published
2010
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50. Sound velocities of compressed Fe3C from simultaneous synchrotron X-ray diffraction and nuclear resonant scattering measurements.

Author

Gao L, Chen B, Lerche M, Alp EE, Sturhahn W, Zhao J, Yavaş H, and Li J

Abstract

The applications of nuclear resonant scattering in laser-heated diamond anvil cells have provided an important probe for the magnetic and vibrational properties of (57)Fe-bearing materials under high pressure and high temperature. Synchrotron X-ray diffraction is one of the most powerful tools for studying phase stability and equation of state over a wide range of pressure and temperature conditions. Recently an experimental capability has been developed for simultaneous nuclear resonant scattering and X-ray diffraction measurements using synchrotron radiation. Here the application of this method to determine the sound velocities of compressed Fe(3)C is shown. The X-ray diffraction measurements allow detection of microscale impurities, phase transitions and chemical reactions upon compression or heating. They also provide information on sample pressure, grain size distribution and unit cell volume. By combining the Debye velocity extracted from the nuclear resonant inelastic X-ray scattering measurements and the structure, density and elasticity data from the X-ray diffraction measurements simultaneously obtained, more accurate sound velocity data can be derived. Our results on few-crystal and powder samples indicate strong anisotropy in the sound velocities of Fe(3)C under ambient conditions.

Published
2009
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