Your search keyword '"Rosenkranz, S."' showing total 1,564 results

1. Development and evaluation of the Capability, Opportunity, and Motivation to deliver Physical Activity in School Scale (COM-PASS)

Author

Verdonschot, A., Beauchamp, M. R., Brusseau, T. A., Chinapaw, M. J. M., Christiansen, L. B., Daly-Smith, A., Eather, N., Fairclough, S. J., Faulkner, G., Foweather, L., García-Hermoso, A., Ha, A. S., Harris, N., Jaakkola, T., Jago, R., Kennedy, S. G., Lander, N. J., Lonsdale, C., Manios, Y., Mazzoli, E., Murtagh, E., Nathan, N., Naylor, P. J., Noetel, M., O’Keeffe, B., Resaland, G. K., Ridgers, N. D., Ridley, K., Riley, N., Rosenkranz, R. R., Rosenkranz, S. K., Sääkslahti, A., Sczygiol, S. M., Skovgaard, T., van Sluijs, E. M. F., Smith, J. J., Smith, M., Stratton, G., Vidal-Conti, J., Webster, C. A., Young, E. S., and Lubans, D. R.

Published

2024

2. Stacking disorder in $\alpha$-RuCl$_3$ via x-ray three-dimensional difference pair distribution function analysis

Author

Sears, J., Shen, Y., Krogstad, M. J., Miao, H., Yan, Jiaqiang, Kim, Subin, He, W., Bozin, E. S., Robinson, I. K., Osborn, R., Rosenkranz, S., Kim, Young-June, and Dean, M. P. M.

Subjects

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

Abstract

The van der Waals layered magnet $\alpha$-RuCl$_3$ offers tantalizing prospects for the realization of Majorana quasiparticles. Efforts to understand this are, however, hampered by inconsistent magnetic and thermal transport properties likely coming from the formation of structural disorder during crystal growth, postgrowth processing, or upon cooling through the first order structural transition. Here, we investigate structural disorder in $\alpha$-RuCl$_3$ using x-ray diffuse scattering and three-dimensional difference pair distribution function (3D-$\Delta$PDF) analysis. We develop a quantitative model that describes disorder in $\alpha$-RuCl$_3$ in terms of rotational twinning and intermixing of the high and low-temperature structural layer stacking. This disorder may be important to consider when investigating the detailed magnetic and electronic properties of this widely studied material., Comment: 6 pages; 3 figures; accepted in Physical Review B

Published

2023

3. Two-Dimensional Short-Range Chemical Ordering in Ba1-xNaxFe2As2

Author

Stadel, R., DeRose, R., Taddei, K. M., Krogstad, M. J., Upreti, P., Islam, Z., Phelan, D., Chung, D. Y., Osborn, R., Rosenkranz, S., and Chmaissem, O.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Materials Science

Abstract

A true understanding of the properties of pnictide superconductors require the development of high-quality materials and performing measurements designed to unravel their intrinsic properties and short-range nematic correlations which are often obscured by extrinsic effects such as poor crystallinity, inhomogeneity, domain formation and twinning. In this paper, we report the systematic growth of high-quality Na-substituted BaFe2As2 single crystals and their characterization using pulsed-magnetic fields x-ray diffraction and x-ray diffuse scattering. Analysis of the properties and compositions of the highest quality crystals show that their actual Na stoichiometry is about 50-60% of the nominal content and that the targeted production of crystals with specific compositions is accessible. We derived a reliable equation to estimate the Na stoichiometry based on the measured superconducting TC of these materials. Attempting to force spin reorientation and induce tetragonality, orthorhombic Ba1-xNaxFe2As2 single crystals subjected to out-of-plane magnetic fields up to 31.4T are found to exhibit strong in-plane magnetic anisotropy demonstrated by the insufficiency of such high fields in manipulating the relative population of their twinned domains or in suppressing the orthorhombic order. Broad x-ray diffuse intensity rods observed at temperatures between 30 K and 300 K uncover short-range structural correlations. Local structure modeling together with 3D-{\Delta}PDF mapping of real-space interatomic vectors show that the diffuse scattering arises from in-plane short-range chemical correlations of the Ba and Na atoms coupled with short-range atomic displacements within the same plane due to an effective size difference between the two atomic species.

Published

2023

4. Structure of Charge Density Waves in La$_{1.875}$Ba$_{0.125}$CuO$_4$

Author

Sears, J., Shen, Y., Krogstad, M. J., Miao, H., Bozin, E. S., Robinson, I. K., Gu, G. D., Osborn, R., Rosenkranz, S., Tranquada, J. M., and Dean, M. P. M.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

Although charge-density wave (CDW) correlations exist in several families of cuprate supercon-ductors, they exhibit substantial variation in CDW wavevector and correlation length, indicating a key role for CDW-lattice interactions. We investigated this interaction in La$_{1.875}$Ba$_{0.125}$CuO$_4$ using single crystal x-ray diffraction to collect a large number of CDW peak intensities, and determined the Cu and La/Ba atomic distortions induced by the formation of CDW order. Within the CuO$_2$ planes, the distortions involve a periodic modulation of the Cu-Cu spacing along the direction of the ordering wave vector. The charge ordering within the copper-oxygen layer induces an out-of-plane breathing modulation of the surrounding lanthanum layers, which leads to a related distortion on the adjacent copper-oxygen layer. Our result implies that the CDW-related structural distortions do not remain confined to a single layer but rather propagate an appreciable distance through the crystal. This leads to overlapping structural modulations, in which CuO$_2$ planes exhibit distortions arising from the orthogonal CDWs in adjacent layers as well as distortions from the CDW within the layer itself. We attribute this striking effect to the weak c-axis charge screening in cuprates and suggest this effect could help couple the CDW between adjacent planes in the crystal., Comment: 9 pages; Accepted in Phys. Rev. B

Published

2022

5. Bootstrapped Dimensional Crossover of a Spin Density Wave

Author

Samarakoon, Anjana M., Strempfer, J., Zhang, Junjie, Ye, Feng, Qiu, Yiming, Kim, J. -W., Zheng, H., Rosenkranz, S., Norman, M. R., Mitchell, J. F., and Phelan, D.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Quantum materials display rich and myriad types of magnetic, electronic, and structural ordering, often with these ordering modes either competing with one another or 'intertwining', that is, reinforcing one another. Low dimensional quantum materials, influenced strongly by competing interactions and/or geometric frustration, are particularly susceptible to such ordering phenomena and thus offer fertile ground for understanding the consequent emergent collective quantum phenomena. Such is the case of the quasi-2D materials R4Ni3O10(R=La, Pr), in which intertwined charge-and spin-density waves (CDW and SDW) on the Ni sublattice have been identified and characterized. Not unexpectedly, these density waves are largely 2D as a result of weak coupling between planes, compounded with magnetic frustration. In the case of R=Pr, however, we show here that exchange coupling between the transition metal and rare earth sublattices upon cooling overcomes both obstacles, leading to a dimensional crossover into a fully 3D ordered and coupled SDW state on both sublattices, as an induced moment on notionally nonmagnetic Pr3+ opens exchange pathways in the third dimension. In the process, the structure of the SDW on the Ni sublattice is irreversibly altered, an effect that survives reheating of the material until the underlying CDW melts. This 'bootstrapping' mechanism linking incommensurate SDWs on the two sublattices illustrates a new member of the multitude of quantum states that low-dimensional magnets can express, driven by coupled orders and modulated by frustrated exchange pathways., Comment: 48 pages including supplementary, 6 figures, 19 supplementary figures

Published

2022

6. Multimodal synchrotron X-ray diffraction across the superconducting transition of Sr$_{0.1}$Bi$_2$Se$_3$

Author

Smylie, M. P., Islam, Z., Gu, G. D., Schneeloch, J., Zhong, R. D., Rosenkranz, S., Kwok, W. -K., and Welp, U.

Subjects

Condensed Matter - Superconductivity

Abstract

In the doped topological insulator Sr$_x$Bi$_2$Se$_3$, a pronounced in-plane two-fold symmetry is observed in electronic properties below the superconducting transition temperature $T_c \sim$ 3 K, despite the three-fold symmetry of the observed $R\bar{3}m$ space group. The axis of two-fold symmetry is nominally pinned to one of three rotational equivalent directions and crystallographic strain has been proposed to be the origin of this pinning. We carried out multimodal synchrotron diffraction and resistivity measurements down to $\sim$0.68 K and in magnetic fields up to 45 kG on a single crystal of Sr$_{0.1}$Bi$_2$Se$_3$ to probe the effect of superconductivity on the crystallographic distortion. Our results indicate that there is no in-plane crystallographic distortion at the level of $1x10^{-5}$ associated with the superconducting transition. These results further support the model that the large two-fold in-plane anisotropy of superconducting properties of Sr$_x$Bi$_2$Sr$_3$ is not structural in origin but electronic, namely it is caused by a nematic superconducting order parameter of Eu symmetry., Comment: 7 pages, 6 figures

Published

2022

7. Neutron Scattering Study of Fluctuating and Static Spin Correlations in the Anisotropic Spin Glass Fe$_2$TiO$_5$

Author

Li, Yu, LaBarre, P. G., Pajerowski, D. M., Ramirez, A. P., Rosenkranz, S., and Phelan, D.

Subjects

Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The anisotropic spin glass transition, in which spin freezing is observed only along the c-axis in pseudobrookite Fe$_2$TiO$_5$, has long been perplexing because the Fe$^{3+}$ moments (d$^5$) are expected to be isotropic. Recently, neutron diffraction demonstrated that surfboard-shaped antiferromagnetic nanoregions coalesce above the glass transition temperature, T$_g$ $\approx$ 55 K, and a model was proposed in which the freezing of the fluctuations of the surfboards' magnetization leads to the anisotropic spin glass state. Given this new model, we have carried out high resolution inelastic neutron scattering measurements of the spin-spin correlations to understand the temperature dependence of the intra-surfboard spin dynamics on neutron (picosecond) time-scales. Here, we report on the temperature-dependence of the spin fluctuations measured from single crystal Fe$_2$TiO$_5$. Strong quasi-elastic magnetic scattering, arising from intra-surfboard correlations, is observed well above T$_g$. The spin fluctuations possess a steep energy-wave vector relation and are indicative of strong exchange interactions, consistent with the large Curie-Weiss temperature. As the temperature approaches T$_g$ from above, a shift in spectral weight from inelastic to elastic scattering is observed. At various temperatures between 4 K and 300 K, a characteristic relaxation rate of the fluctuations is determined. Despite the freezing of the majority of the spin correlations, an inelastic contribution remains even at base temperature, signifying the presence of fluctuating intra-surfboard spin correlations to at least T/T$_g$ $\approx$ 0.1 consistent with a description of Fe$_2$TiO$_5$ as a hybrid between conventional and geometrically frustrated spin glasses., Comment: 6 figures

Published

2022

8. The Geometrically Frustrated Spin Glass (Fe1-pGap)2TiO5

Author

Li, Y., Phelan, D., Ye, F., Zheng, H., Krivyakina, E., Samarakoon, A., LaBarre, P. G., Neu, J., Siegrist, T., Rosenkranz, S., Syzranov, S. V., and Ramirez, A. P.

Subjects

Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The unusual anisotropy of the spin glass transition in the pseudobrookite system Fe$_2$TiO$_5$ has been interpreted as arising from an induced, van der Waals-like, interaction among magnetic clusters. Here we present susceptibility ($\chi$) and specific heat data (C) for Fe2TiO5 diluted with non-magnetic Ga, (Fe$_{1-p}$Ga$_p$)$_2$TiO$_5$, for disorder parameter p = 0, 0.11, and 0.42, and elastic neutron scattering data for p = 0.20. A uniform suppression of T{_g} is observed upon increasing p, along with a value of $\chi (T_g)$ that increases as T$_g$ decreases, i.e. $d\chi(T_g)/dT_g< 0$. We also observe C(T) $\propto$ T$^2$ in the low temperature limit. The observed behavior places (Fe$_{1-p}$Ga$_p$)$_2$TiO$_5$ in the category of a strongly geometrically frustrated spin glass., Comment: 4 figures

Published

2022

9. Soft elastic constants from phonon spectroscopy in hole-doped Ba$_{1-x}$(K,Na)$_x$Fe$_2$As$_2$ and Sr$_{1-x}Na$_x$Fe$_2$As$_2$

Author

Kauth, M., Rosenkranz, S., Said, A. H., Taddei, K. M., Wolf, Th., and Weber, F.

Subjects

Condensed Matter - Superconductivity

Abstract

We report inelastic x-ray scattering measurements of the in-plane polarized transverse acoustic phonon mode propagating along $q\parallel$[100] in various hole-doped compounds belonging to the 122 family of iron-based superconductors. The slope of the dispersion of this phonon mode is proportional to the square root of the shear modulus $C_{66}$ in the $q \rightarrow 0$ limit and, hence, sensitive to the tetragonal-to-orthorhombic structural phase transition occurring in these compounds. In contrast to a recent report for Ba(Fe$_{0.94}$Co$_{0.06}$)$_2$As$_2$ [F. Weber et al., Phys. Rev. B 98, 014516 (2018)], we find qualitative agreement between values of $C_{66}$ deduced from our experiments and those derived from measurements of the Youngs modulus in Ba$_{1-x}$(K,Na)$_x$Fe$_2$As$_2$ at optimal doping. These results provide an upper limit of about 50 {\AA} for the nematic correlation length for the optimally hole-doped compounds. Furthermore, we also studied compounds at lower doping levels exhibiting the orthorhombic magnetic phase, where $C_{66}$ is not accessible by volume probes, as well as the C4 tetragonal magnetic phase.investigated

Published

2020

10. Synthesis and characterization of bulk Nd1-xSrxNiO2 and Nd1-xSrxNiO3

Author

Wang, Bi-Xia, Zheng, Hong, Krivyakina, E., Chmaissem, O., Lopes, Pietro Papa, Lynn, J. W., Gallington, Leighanne C., Ren, Y., Rosenkranz, S., Mitchell, J. F., and Phelan, D.

Subjects

Condensed Matter - Materials Science

Abstract

The recent reports of superconductivity in Nd1-xSrxNiO2/SrTiO3 heterostructures have reinvigorated interest in potential superconductivity of low-valence nickelates. Synthesis of Ni1+-containing compounds is notoriously difficult. In the current work, a combined sol-gel combustion and high-pressure annealing technique was employed to prepare polycrystalline perovskite Nd1-xSrxNiO3 (x = 0, 0.1 and 0.2). Metal nitrates and metal acetates were used as starting materials, and the latter were found to be superior to the former in terms of safety and reactivity. The Nd1-xSrxNiO3 compounds were subsequently reduced to Nd1 xSrxNiO2 using calcium hydride in a sealed, evacuated quartz tube. To understand the synthesis pathway, the evolution from NdNiO3 to NdNiO2 was monitored using in-situ synchrotron X ray diffraction during the reduction process. Electrical transport properties were consistent with an insulator-metal transition occurring between x = 0 and 0.1 for Nd1-xSrxNiO3. Superconductivity was not observed in our bulk samples of Nd1-xSrxNiO2. Neutron diffraction experiments at 3 K and 300 K were performed on Nd0.9Sr0.1NiO2, in which no magnetic Bragg reflections were observed, and the results of structural Rietveld refinement are provided., Comment: 8 pages, 8 figures

Published

2020

11. Intertwined density waves in a metallic nickelate

Author

Zhang, J., Phelan, D., Botana, A. S., Chen, Y-S., Zheng, H., Krogstad, M., Wang, S. G., Qiu, Y., Rodriguez-Rivera, J. A., Osborn, R., Rosenkranz, S., Norman, M. R., and Mitchell, J. F.

Subjects

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

Abstract

Nickelates are a rich class of materials, ranging from insulating magnets to superconductors. But for stoichiometric materials, insulating behavior is the norm, as for most late transition metal oxides. Notable exceptions are the 3D perovskite LaNiO$_3$, an unconventional paramagnetic metal, and the layered Ruddlesden-Popper phases R$_4$Ni$_3$O$_{10}$, (R=La, Pr, Nd). The latter are particularly intriguing because they exhibit an unusual metal-to-metal transition. Here, we demonstrate that this transition results from an incommensurate density wave with both charge and magnetic character that lies intermediate in behavior between the metallic density wave seen in chromium metal and the insulating stripes typically found in layered nickelates. As such, R$_4$Ni$_3$O$_{10}$, which appears to be the first known example of an itinerant spin density wave in a 3d transition metal oxide, represents an important bridge between the paramagnetism of 3D metallic LaNiO$_3$ at higher nickel valence and the polaronic behavior of quasi-2D R$_{2-x}$Sr$_x$NiO$_4$ at lower nickel valence.

Published

2020

12. Fluctuation-Induced Interactions and the Spin Glass Transition in $Fe_2TiO_5$

Author

LaBarre, P. G., Phelan, D., Xin, Y., Ye, F., Besara, T., Siegrist, T., Syzranov, S. V., Rosenkranz, S., and Ramirez, A. P.

Subjects

Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Strongly Correlated Electrons

Abstract

We investigate the spin-glass transition in the strongly frustrated well-known compound $Fe_2TiO_5$. A remarkable feature of this transition, widely discussed in the literature, is its anisotropic properties: the transition manifests itself in the magnetic susceptibly only along one axis, despite $Fe^{3+}$ $d^5$ spins having no orbital component. We demonstrate, using neutron scattering, that below the transition temperature $T_g = 55 K$, $Fe_2TiO_5$ develops nanoscale surfboard shaped antiferromagnetic regions in which the $Fe^{3+}$ spins are aligned perpendicular to the axis which exhibits freezing. We show that the glass transition may result from the freezing of transverse fluctuations of the magnetization of these regions and we develop a mean-field replica theory of such a transition, revealing a type of magnetic van der Waals effect., Comment: 14 pages, 4 figures, 6 page supplemental material, 2 figures

Published

2019

13. Spin stripe order in a square planar trilayer nickelate

Author

Zhang, Junjie, Pajerowski, D. M., Botana, A. S., Zheng, Hong, Harriger, L., Rodriguez-Rivera, J., Ruff, J. P. C., Schreiber, N. J., Wang, B., Chen, Yu-Sheng, Chen, W. C., Norman, M. R., Rosenkranz, S., Mitchell, J. F., and Phelan, D.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science, Condensed Matter - Superconductivity

Abstract

Trilayer nickelates, which exhibit a high degree of orbital polarization combined with an electron count (d8.67) corresponding to overdoped cuprates, have been identified as a promising candidate platform for achieving high-Tc superconductivity. One such material, La4Ni3O8, undergoes a semiconductor-insulator transition at ~105 K, which was recently shown to arise from the formation of charge stripes. However, an outstanding issue has been the origin of an anomaly in the magnetic susceptibility at the transition and whether it signifies formation of spin stripes akin to single layer nickelates. Here we report single crystal neutron diffraction measurements (both polarized and unpolarized) that establish that the ground state is indeed magnetic. The ordering is modeled as antiferromagnetic spin stripes that are commensurate with the charge stripes, the magnetic ordering occurring in individual trilayers that are essentially uncorrelated along the crystallographic c-axis. Comparison of the charge and spin stripe order parameters reveals that, in contrast to single-layer nickelates such as La2-xSrxNiO4 as well as related quasi-2D oxides including manganites, cobaltates, and cuprates, these orders uniquely appear simultaneously, thus demonstrating a stronger coupling between spin and charge than in these related low-dimensional correlated oxides., Comment: 34 pages, 10 figures (including SI). Accepted by Physical Review Letters

Published

2019

14. Suppression of charge density wave order by disorder in Pd-intercalated ErTe$_3$

Author

Straquadine, J. A. W., Weber, F., Rosenkranz, S., Said, A. H., and Fisher, I. R.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Disorder is generically anticipated to suppress long range charge density wave (CDW) order. We report transport, thermodynamic, and scattering experiments on Pd$_x$ErTe$_3$, a model CDW system with disorder induced by intercalation. The pristine parent compound ($x=0$) shows two separate, mutually perpendicular, incommensurate unidirectional CDW phases setting in at 270 K and 165 K. Here we track the suppression of signatures corresponding to these two parent transitions as the Pd concentration increases. At the largest values of $x$, we observe complete suppression of long range CDW order in favor of superconductivity. We also report evidence from electron and x-ray diffraction which suggests a tendency toward short-range ordering along both wavevectors which persists even well above the crossover temperature. Pd$_x$ErTe$_3$ provides a promising model system for the study of the interrelation of charge order and superconductivity in the presence of quenched disorder., Comment: 9 pages, 7 figures

Published

2019

15. Competing soft phonon modes at the charge-density-wave transitions in DyTe$_3$

Author

Maschek, M., Zocco, D. A., Rosenkranz, S., Heid, R., Said, A. H., Alatas, A., Walmsley, P., Fisher, I. R., and Weber, F.

Subjects

Condensed Matter - Materials Science

Abstract

The family of rare-earth tritellurides RTe$_3$ features charge-density-wave (CDW) order related to strongly momentum-dependent electron-phonon coupling. Similar to other CDW compounds, superconductivity is observed when the CDW order is suppressed via hydrostatic pressure [1]. What sets the heavier members of the RTe3 series apart is the observation of a second CDW transition at lower temperatures having an in-plane ordering wavevector $q_{CDW,2}\parallel [100]$ of almost the same magnitude but orthogonal to the ordering wavevector $q_{CDW,1}\parallel [001]$ observed at higher temperatures [2]. Here, we report an inelastic x-ray scattering investigation of the lattice dynamics of DyTe$_3$. In particular, we show that there are several phonon modes along both in-plane directions, which respond to the onset of the CDW transition at $T_{CDW,1}=308\,\rm{K}$. Surprisingly, these soft modes close to $q_{CDW,2}=(0.68,0,0)$ show strong softening near $T_{CDW,1}$ but do not exhibit any response to the lower-temperature transition at $T_{CDW,2}=68\,\rm{K}$. Our results indicate that the low-temperature CDW order is not just the 90{\deg} rotated analogue of the one appearing at high temperatures.

Published

2018

16. Spectroscopic evidence for temperature-dependent convergence of light and heavy hole valence bands of PbQ (Q=Te, Se, S)

Author

Zhao, J., Malliakas, C. D., Wijayaratne, K., Karlapati, V., Appathurai, N., Chung, D. Y., Rosenkranz, S., Kanatzidis, M. G., and Chatterjee, U.

Subjects

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

Abstract

We have conducted temperature dependent Angle Resolved Photoemission Spectroscopy (ARPES) study of the electronic structures of PbTe, PbSe and PbS. Our ARPES data provide direct evidence for the \emph{light} hole upper valence bands (UVBs) and hitherto undetected \emph{heavy} hole lower valence bands (LVBs) in these materials. An unusual temperature dependent relative movement between these bands leads to a monotonic decrease in the energy separation between their maxima with increasing temperature, which is referred as band convergence and has long been believed to be the driving factor behind extraordinary thermoelectric performances of these compounds at elevated temperatures., Comment: 6 pages, 4 figures. arXiv admin note: text overlap with arXiv:1404.1807

Published

2018

17. Widespread orthorhombic fluctuations in the (Sr,Na)Fe2As2 family of superconductors

Author

Frandsen, BA, Taddei, KM, Bugaris, DE, Stadel, R, Yi, M, Acharya, A, Osborn, R, Rosenkranz, S, Chmaissem, O, and Birgeneau, RJ

Subjects

cond-mat.supr-con

Abstract

We report comprehensive pair distribution function measurements of the hole-doped iron-based superconductor system Sr1-xNaxFe2As2. Structural refinements performed as a function of temperature and length scale reveal orthorhombic distortions of the instantaneous local structure across a large region of the phase diagram possessing average tetragonal symmetry, indicative of fluctuating nematicity. These nematic fluctuations are present up to high doping levels (x=0.48, near optimal superconductivity) and high temperatures (above room temperature for x=0, decreasing to 150 K for x=0.48), with a typical length scale of 1-3 nm. This work highlights the ubiquity of nematic fluctuations in a representative iron-based superconductor and provides important details about the evolution of these fluctuations across the phase diagram.

Published

2018

18. Baseline Characteristics From the IMPAHCT Trial of AV-101, Inhaled Imatinib, in Subjects With Pulmonary Arterial Hypertension

Author

Gillies, H., primary, Chakinala, M.M., additional, Dake, B., additional, Feldman, J.P., additional, Hoeper, M., additional, Humbert, M.J.C., additional, Jing, Z.-C., additional, Langley, J., additional, Mclaughlin, V.V., additional, Niven, R., additional, Rosenkranz, S., additional, Zhang, X., additional, and Hill, N.S., additional

Published

2024

19. Prognostic Value of the Multicomponent Improvement (MCI) Endpoint in Patients With Pulmonary Arterial Hypertension (PAH) Treated With Sotatercept

Author

Waxman, A.B., primary, Badesch, D.B., additional, Gibbs, J.S.R., additional, Ghofrani, H.A., additional, Gomberg-Maitland, M., additional, Humbert, M.J.C., additional, Mclaughlin, V.V., additional, Preston, I.R., additional, Souza, R., additional, Grünig, E., additional, Kope&#263;, G., additional, Bohns Meyer, G.M., additional, Olsson, K.M., additional, Rosenkranz, S., additional, Zhao, Y., additional, Lau, A., additional, Cornell, A.G., additional, Pena, J., additional, and Hoeper, M.M., additional

Published

2024

20. Consistency of the Efficacy and Safety Profile of Sotatercept across Baseline Cardiac Index Subgroups: A Pooled Analysis of STELLAR and PULSAR Trials

Author

Gomberg-Maitland, M., primary, Badesch, D.B., additional, Gibbs, J.R., additional, Grunig, E., additional, Hoeper, M.M., additional, Humbert, M., additional, Kopec, G., additional, McLaughlin, V.V., additional, Meyer, G., additional, Olsson, K.M., additional, Preston, I., additional, Rosenkranz, S., additional, Souza, R., additional, Waxman, A., additional, Perchenet, L., additional, Strait, J., additional, Xing, A., additional, Johnson-Levonas, A.O., additional, Cornell, A.G., additional, de Oliveira Pena, J., additional, and Ghofrani, H., additional

Published

2024

21. Superconductivity and hybrid soft modes in TiSe$_2$

Author

Maschek, M., Rosenkranz, S., Hott, R., Heid, R., Zocco, D., Said, A. H., Alatas, A., Karapetrov, G., Zhu, Shan, van Wezel, Jasper, and Weber, F.

Subjects

Condensed Matter - Superconductivity

Abstract

The competition between superconductivity and other ground states of solids is one of the challenging topics in condensed matter physics. Apart from high-temperature superconductors [1,2] this interplay also plays a central role in the layered transition-metal dichalcogenides, where superconductivity is stabilized by suppressing charge-density-wave order to zero temperature by intercalation [3] or applied pressure [4-7]. 1T-TiSe$_2$ forms a prime example, featuring superconducting domes on intercalation as well as under applied pressure. Here, we present high energy-resolution inelastic x-ray scattering measurements of the CDW soft phonon mode in intercalated Cu$_x$TiSe$_2$ and pressurized 1T-TiSe$_2$ along with detailed ab-initio calculations for the lattice dynamical properties and phonon-mediated superconductivity. We find that the intercalation-induced superconductivity can be explained by a solely phonon-mediated pairing mechanism, while this is not possible for the superconducting phase under pressure. We argue that a hybridization of phonon and exciton modes in the pairing mechanism is necessary to explain the full observed temperature-pressure-intercalation phase diagram. These results indicate that 1T-TiSe$_2$ under pressure is close to the elusive state of the excitonic insulator.

Published

2016

22. Superconducting energy gap of $2H$-NbSe$_2$ in phonon spectroscopy

Author

Weber, F., Rosenkranz, S., Heid, R., and Said, A. H.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We present a high energy-resolution inelastic x-ray scattering data investigation of the charge-density-wave (CDW) soft phonon mode upon entering the superconducting state in $2H$-NbSe$_2$. Measurements were done close to the CDW ordering wavevector $\mathbf{q}_{CDW}$ at $\mathbf{q}=\mathbf{q}_{CDW}+(0,0,l)$,$0.15\leq l \leq 0.5$, for $T=10\,\rm{K}$ (CDW order) and $3.8\,\rm{K}$ (CDW order + superconductivity). We observe changes of the phonon lineshape that are characteristic for systems with strong electron-phonon coupling in the presence of a superconducting energy gap $2\Delta_c$ and from which we can demonstrate an $l$-dependence of the superconducting gap. Reversely, our data imply that the CDW energy gap is strongly localized along the $c^*$ direction. The confinement of the CDW gap to a very small momentum region explains the rather low competition and easy coexistence of CDW order and superconductivity in $2H$-NbSe$_2$. However, the energy gained by opening $\Delta_{CDW}$ seems to be too small to be the driving force of the phase transition at $T_{CDW}=33\,\rm{K}$ , which is better described as an electron-phonon coupling driven structural phase transition.

Published

2016

23. Detailed magnetic and structural analysis mapping a robust magnetic C4 dome in Sr1-xNaxFe2As2

Author

Taddei, K. M., Allred, J. M., Bugaris, D. E., Lapidus, S. H., Krogstad, M. J., Stadel, R., Claus, H., Chung, D. Y., Kanatzidis, M. G., Rosenkranz, S., Osborn, R., and Chmaissem, O.

Subjects

Condensed Matter - Superconductivity

Abstract

The recently discovered $C_4$ tetragonal magnetic phase in hole-doped members of the iron-based superconductors provides new insights into the origin of unconventional superconductivity. Previously observed in Ba$_{1-x}A_x$Fe$_2$As$_2$ (with $A =$ K, Na), the $C_4$ magnetic phase exists within the well studied $C_2$ spin-density wave (SDW) dome, arising just before the complete suppression of antiferromagnetic (AFM) order but after the onset of superconductivity. Here, we present detailed x-ray and neutron diffraction studies of Sr$_{1-x}$Na$_x$Fe$_2$As$_2$ ($0.10 \leq\ x \leq\ 0.60$) to determine their structural evolution and the extent of the $C_4$ phase. Spanning $\Delta x\sim 0.14$ in composition, the $C_4$ phase is found to extend over a larger range of compositions, and to exhibit a significantly higher transition temperature, $T_r \sim 65$K, than in either of the other systems in which it has been observed. The onset of this phase is seen near a composition ($x \sim 0.30$) where the bonding angles of the Fe$_2$As$_2$ layers approach the perfect $109.46^\circ$ tetrahedral angle. We discuss the possible role of this return to a higher symmetry environment for the magnetic iron site in triggering the magnetic reorientation and the coupled re-entrance to the tetragonal structure. Finally, we present a new phase diagram, complete with the $C_4$ phase, and use its observation in a third hole-doped 122 system to suggest the universality of this phase., Comment: 14 pages, 10 figures, 2 tables

Published

2016

24. Switching to riociguat versus maintenance therapy with phosphodiesterase-5 inhibitors in patients with pulmonary arterial hypertension (REPLACE): a multicentre, open-label, randomised controlled trial

Author

Olschewski, H, Delcroix, M, Andrade-Lima, M, de Amorim Corrêac, R, Figueiredo Campos, F, Ota Arakaki, J, Meyer, G, De Souza, R, Langleben, D, Al-Hiti, H, Jansa, P, Mellemkjær, S, Bauer, F, Montani, D, Simonneau, G, Drömann, D, Ghofrani, H-A, Grünig, E, Halank, M, Held, M, Hoeper, MM, Klose, H, Kneidinger, N, Leuchte, H, Opitz, C, Rosenkranz, S, Wilkens, H, Wirtz, H, Karvounis, H, Pitsiou, G, Orfanos, S, D'Alto, M, Ghio, S, Vizza, CD, Vitulo, P, Nakayama, T, Maki, H, Tatebe, S, de los Rios Ibarra, M, Pulido, T, Van Dijk, A, Vonk-Noordegraaf, A, Roleder, T, Castro, G, Loureiro, MJ, Robalo-Martins, S, Barberá, JA, Lázaro, M, Perez-Penate, GM, Román, A, Cheng, C-C, Hsu, C-H, Hsu, H-H, Atahan, E, Mogulkoc Bishop, N, Okumus, NG, Onen, Z, Chang, H-J, Chang, S-A, Lee, J-S, Kim, H-K, Coghlan, JG, Corris, PA, Church, AC, Condliffe, R, Gibbs, JSR, Peacock, AJ, Wort, S, Allen, R, Allen, S, Awdish, R, Benza, RL, DeSouza, S, Feldman, J, Johri, S, Klinger, JR, Layish, D, McConnell, J, McLaughlin, VV, Migliore, C, Rahaghi, F, Rischard, F, Robbins, I, Satterwhite, L, Shah, T, Sulica, R, White, RJ, Hoeper, Marius M, Al-Hiti, Hikmet, Benza, Raymond L, Chang, Sung-A, Corris, Paul A, Gibbs, J Simon R, Grünig, Ekkehard, Jansa, Pavel, Klinger, James R, Langleben, David, McLaughlin, Vallerie V, Meyer, Gisela M B, Ota-Arakaki, Jaquelina, Peacock, Andrew J, Pulido, Tomás, Rosenkranz, Stephan, Vizza, Carmine Dario, Vonk-Noordegraaf, Anton, White, R James, Chang, Mikyung, Kleinjung, Frank, Meier, Christian, Paraschin, Karen, Ghofrani, Hossein Ardeschir, and Simonneau, Gérald

Published

2021

25. Observation of a Charge Density Wave Incommensuration Near the Superconducting Dome in CuxTiSe2

Author

Kogar, A, de la Pena, GA, Lee, Sangjun, Fang, Y, Sun, SX-L, Lioi, DB, Karapetrov, G, Finkelstein, KD, Ruff, JPC, Abbamonte, P, and Rosenkranz, S

Subjects

Physical Sciences, Condensed Matter Physics, cond-mat.supr-con, cond-mat.str-el, Mathematical Sciences, Engineering, General Physics, Mathematical sciences, Physical sciences

Abstract

X-ray diffraction was employed to study the evolution of the charge density wave (CDW) in Cu_{x}TiSe_{2} as a function of copper intercalation in order to clarify the relationship between the CDW and superconductivity. The results show a CDW incommensuration arising at an intercalation value coincident with the onset of superconductivity at around x=0.055(5). Additionally, it was found that the charge density wave persists to higher intercalant concentrations than previously assumed, demonstrating that the CDW does not terminate inside the superconducting dome. A charge density wave peak was observed in samples up to x=0.091(6), the highest copper concentration examined in this study. The phase diagram established in this work suggests that charge density wave incommensuration may play a role in the formation of the superconducting state.

Published

2017

26. Two-dimensional overdamped fluctuations of the soft perovskite lattice in CsPbBr3

Author

Lanigan-Atkins, T., He, X., Krogstad, M. J., Pajerowski, D. M., Abernathy, D. L., Xu, Guangyong N. M. N., Xu, Zhijun, Chung, D.-Y., Kanatzidis, M. G., Rosenkranz, S., Osborn, R., and Delaire, O.

Published

2021

27. Destroying coherence in high temperature superconductors with current flow

Author

Kaminski, A., Rosenkranz, S., Norman, M. R., Randeria, M., Li, Z. Z., Raffy, H., and Campuzano, J. C.

Subjects

Condensed Matter - Superconductivity

Abstract

The loss of single-particle coherence going from the superconducting state to the normal state in underdoped cuprates is a dramatic effect that has yet to be understood. Here, we address this issue by performing angle resolved photoemission spectroscopy (ARPES) measurements in the presence of a transport current. We find that the loss of coherence is associated with the development of an onset in the resistance, in that well before the midpoint of the transition is reached, the sharp peaks in the ARPES spectra are completely suppressed. Since the resistance onset is a signature of phase fluctuations, this implies that the loss of single-particle coherence is connected with the loss of long-range phase coherence., Comment: 7 pages, 7 figures

Published

2015

28. Emergence of coherence in the charge-density wave state of 2H-NbSe$_2$

Author

Chatterjee, U., Zhao, J., Iavarone, M., Di Capua, R., Castellan, J. P., Karapetrov, G., Malliakas, C. D., Kanatzidis, M. G., Claus, H., Ruff, J. P. C., Weber, F., van Wezel, J., Campuzano, J. C., Osborn, R., Randeria, M., Trivedi, N., Norman, M. R., and Rosenkranz, S.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

A charge-density wave (CDW) state has a broken symmetry described by a complex order parameter with an amplitude and a phase. The conventional view, based on clean, weak-coupling systems, is that a finite amplitude and long-range phase coherence set in simultaneously at the CDW transition temperature T$_{cdw}$. Here we investigate, using photoemission, X-ray scattering and scanning tunneling microscopy, the canonical CDW compound 2H-NbSe$_2$ intercalated with Mn and Co, and show that the conventional view is untenable. We find that, either at high temperature or at large intercalation, CDW order becomes short-ranged with a well-defined amplitude that impacts the electronic dispersion, giving rise to an energy gap. The phase transition at T$_{cdw}$ marks the onset of long-range order with global phase coherence, leading to sharp electronic excitations. Our observations emphasize the importance of phase fluctuations in strongly coupled CDW systems and provide insights into the significance of phase incoherence in `pseudogap' states., Comment: main manuscript plus supplementary information

Published

2015

29. Investigation of ferromagnetic domain behavior and phase transition at nanoscale in bilayer manganites

Author

Phatak, C., Petford-Long, A. K., Zheng, H., Mitchell, J. F., Rosenkranz, S., and Norman, M. R.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Understanding the underlying mechanism and phenomenology of colossal magnetoresistance in manganites has largely focused on atomic and nanoscale physics such as double exchange, phase separation, and charge order. Here we consider a more macroscopic view of manganite materials physics, reporting on the ferromagnetic domain behavior in a bilayer manganite sample with a nominal composition of La$_{2-2x}$Sr$_{1+2x}$Mn$_2$O$_7$ with $x=0.38$, studied using in-situ Lorentz transmission electron microscopy. The role of magnetocrystalline anisotropy on the structure of domain walls was elucidated. On cooling, magnetic domain contrast was seen to appear first at the Curie temperature within the $a-b$ plane. With further reduction in temperature, the change in area fraction of magnetic domains was used to estimate the critical exponent describing the ferromagntic phase transition. The ferromagnetic phase transition was accompanied by a distinctive nanoscale granular contrast close to the Curie temperature, which we infer to be related to the presence of ferromagnetic nanoclusters in a paramagnetic matrix, which has not yet been reported in bilayer manganites.

Published

2015

30. Double-Q spin-density wave in iron arsenide superconductors

Author

Allred, J. M., Taddei, K. M., Bugaris, D. E., Krogstad, M. J., Lapidus, S. H., Chung, D. Y., Claus, H., Kanatzidis, M. G., Brown, D. E., Kang, J., Fernandes, R. M., Eremin, I., Rosenkranz, S., Chmaissem, O., and Osborn, R.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity

Abstract

Elucidating the nature of the magnetic ground state of iron-based superconductors is of paramount importance in unveiling the mechanism behind their high temperature superconductivity. Until recently, it was thought that superconductivity emerges only from an orthorhombic antiferromagnetic stripe phase, which can in principle be described in terms of either localized or itinerant spins. However, we recently reported that tetragonal symmetry is restored inside the magnetically ordered state of a hole-doped BaFe2As2. This observation was interpreted as indirect evidence of a new double-Q magnetic structure, but alternative models of orbital order could not be ruled out. Here, we present Mossbauer data that show unambiguously that half of the iron sites in this tetragonal phase are non-magnetic, establishing conclusively the existence of a novel magnetic ground state with a non-uniform magnetization that is inconsistent with localized spins. We show that this state is naturally explained as the interference between two spin-density waves, demonstrating the itinerant character of the magnetism of these materials and the primary role played by magnetic over orbital degrees of freedom., Comment: 7 pages, 3 figures

Published

2015

31. Wave vector dependent electron-phonon coupling drives charge-density-wave formation in TbTe3

Author

Maschek, M., Rosenkranz, S., Heid, R., Said, A. H., Giraldo-Gallo, P., Fisher, I. R., and Weber, F.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We present a high energy-resolution inelastic x-ray scattering investigation of the soft phonon mode in the charge-density-wave system TbTe$_3$. We analyze our data based on lattice dynamical calculations using density-functional-perturbation-theory and find clear evidence that strongly momentum dependent electron-phonon-coupling defines the periodicity of the CDW superstructure: Our experiment reveals strong phonon softening and increased phonon line widths over a large part in reciprocal space adjacent to the CDW ordering vector $q_{CDW} = (0, 0, 0.3)$. Further, $q_{CDW}$ is clearly offset from the wave vector of (weak) Fermi surface nesting $q_{FS} = (0, 0, 0.25)$ and our detailed analysis indicates that electron-phonon-coupling is responsible for this shift. Hence, we can add TbTe$_3$, which was previously considered as a canonical CDW compound following the Peierls scenario, to the list of distinct charge-density-wave materials characterized by momentum dependent electron-phonon coupling.

Published

2014

32. Symmetry of re-entrant tetragonal phase in Ba1-xNaxFe2As2: Magnetic versus orbital ordering mechanism

Author

Khalyavin, D. D., Lovesey, S. W., Manuel, P., Kruger, F., Rosenkranz, S., Allred, J. M., Chmaissem, O., and Osborn, R.

Subjects

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

Abstract

Magneto-structural phase transitions in Ba1-xAxFe2As2 (A = K, Na) materials are discussed for both magnetically and orbitally driven mechanisms, using a symmetry analysis formulated within the Landau theory of phase transitions. Both mechanisms predict identical orthorhombic space-group symmetries for the nematic and magnetic phases observed over much of the phase diagram, but they predict different tetragonal space-group symmetries for the newly discovered re-entrant tetragonal phase in Ba1-xNaxFe2As2 (x ~ 0.24-0.28). In a magnetic scenario, magnetic order with moments along the c-axis, as found experimentally, does not allow any type of orbital order, but in an orbital scenario, we have determined two possible orbital patterns, specified by P4/mnc1' and I4221' space groups, which do not require atomic displacements relative to the parent I4/mmm1' symmetry and, in consequence, are indistinguishable in conventional diffraction experiments. We demonstrate that the three possible space groups are however, distinct in resonant X-ray Bragg diffraction patterns created by Templeton & Templeton scattering. This provides an experimental method of distinguishing between magnetic and orbital models.

Published

2014

33. Progrediente Dyspnoe bei neuroendokrinem Tumor

Author

Adler, J., Schmidt, M., Adler, C., Cremer, B., Rudolph, V., and Rosenkranz, S.

Published

2020

34. Universal features in the photoemission spectroscopy of high temperature superconductors

Author

Zhao, J., Chatterjee, U., Ai, D., Hinks, D. G., Zheng, H., Gu, G., Rosenkranz, S., Castellan, J. -P, Claus, H., Norman, M. R., Randeria, M., and Campuzano, J. C.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity

Abstract

The energy gap for electronic excitations is one of the most important characteristics of the superconducting state, as it directly refects the pairing of electrons. In the copper-oxide high temperature superconductors (HTSCs), a strongly anisotropic energy gap, which vanishes along high symmetry directions, is a clear manifestation of the d-wave symmetry of the pairing. There is, however, a dramatic change in the form of the gap anisotropy with reduced carrier concentration (underdoping). Although the vanishing of the gap along the diagonal to the square Cu-O bond directions is robust, the doping dependence of the large gap along the Cu-O directions suggests that its origin might be different from pairing. It is thus tempting to associate the large gap with a second order parameter distinct from superconductivity. We use angle-resolved photoemission spectroscopy (ARPES) to show that the two-gap behavior, and the destruction of well defined electronic excitations, are not universal features of HTSCs, and depend sensitively on how the underdoped materials are prepared. Depending on cation substitution, underdoped samples either show two-gap behavior or not. In contrast, many other characteristics of HTSCs, such as the domelike dependence of Tc on doping, long-lived excitations along the diagonals to the Cu-O bonds, energy gap at the antinode (crossing of the underlying Fermi surface and the (pi, 0)-(pi, pi) line) decreasing monotonically with doping, while persisting above Tc (the pseudogap), are present in all samples, irrespective of whether they exhibit two-gap behavior or not. Our results imply that universal aspects of high Tc superconductivity are relatively insensitive to differences in the electronic states along the Cu-O bond directions., Comment: Accepted for publication at PNAS

Published

2013

35. Optic phonons and the soft mode in 2H-NbSe2

Author

Weber, F., Hott, R., Heid, R., Bohnen, K. -P., Rosenkranz, S., Castellan, J. -P., Osborn, R., Leu, A. H. Said B. M., and Reznik, D.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We present an investigation of the lattice dynamics of the charge-density-wave compound 2H-NbSe2. We analyze the precise nature of the wave vector dependent electron-phonon coupling (EPC) and derive the bare dispersion of the charge-density-wave (CDW) soft phonon mode using inelastic x-ray scattering combined with ab-initio calculations. Experimentally, phonon modes along the {\Gamma} - M line, i.e. q = (h, 0, 0) with 0 <= h <= 0.5, with the same longitudinal symmetry ({\Sigma}1) as the CDW soft mode were investigated up to 32 meV. In agreement with our calculations we observe significant EPC in the optic modes at h <= 0.2. We analyze the EPC in the optic as well as acoustic modes and show that the q dependences stem from scattering processes between two bands at the Fermi surface both having Nb 4d character. Finally, we demonstrate that the soft mode dispersion at T = 33 K (= {T_{CDW}}) can be well described on the basis of a strongly q dependent EPC matrix element and an acoustic-like bare phonon dispersion in agreement with observations near room temperature., Comment: accepted as regular article in Physical Review B

Published

2013

36. Electronic phase diagram of high temperature copper oxide superconductors

Author

Chatterjee, U., Zhao, J., Ai, D., Rosenkranz, S., Kaminski, A., Raffy, H., Li, Z. Z., Kadowaki, K., Randeria, M., Norman, M. R., and Campuzano, J. C.

Subjects

Condensed Matter - Superconductivity

Abstract

In order to understand the origin of high-temperature superconductivity in copper oxides, we must understand the normal state from which it emerges. Here, we examine the evolution of the normal state electronic excitations with temperature and carrier concentration in Bi2Sr2CaCu2O8 using angle-resolved photoemission. In contrast to conventional superconductors, where there is a single temperature scale Tc separating the normal from the superconducting state, the high- temperature superconductors exhibit two additional temperature scales. One is the pseudogap scale T*, below which electronic excitations exhibit an energy gap. The second is the coherence scale Tcoh, below which sharp spectral features appear due to increased lifetime of the excitations. We find that T* and Tcoh are strongly doping dependent and cross each other near optimal doping. Thus the highest superconducting Tc emerges from an unusual normal state that is characterized by coherent excitations with an energy gap., Comment: 5 pages, 4 figures. Published in Proc. Nat. Acad. Sci. vol. 108 pp 9346 (2011). Free to download

Published

2013

37. Large intrinsic anomalous Hall effect in SrIrO3 induced by magnetic proximity effect

Author

Yoo, Myoung-Woo, Tornos, J., Sander, A., Lin, Ling-Fang, Mohanta, Narayan, Peralta, A., Sanchez-Manzano, D., Gallego, F., Haskel, D., Freeland, J. W., Keavney, D. J., Choi, Y., Strempfer, J., Wang, X., Cabero, M., Vasili, Hari Babu, Valvidares, Manuel, Sanchez-Santolino, G., Gonzalez-Calbet, J. M., Rivera, A., Leon, C., Rosenkranz, S., Bibes, M., Barthelemy, A., Anane, A., Dagotto, Elbio, Okamoto, S., te Velthuis, S. G. E., Santamaria, J., and Villegas, Javier E.

Published

2021

38. Supplemental Material for 'High Contrast X-ray Speckle from Atomic-Scale Order in Liquids and Glasses'

Author

Hruszkewycz, S. O., Sutton, M., Fuoss, P. H., Adams, B., Rosenkranz, S., Ludwig Jr., K. F., Roseker, W., Fritz, D., Cammarata, M., Zhu, D., Lee, S., Lemke, H., Gutt, C., Robert, A., Gruebel, G., and Stephenson, G. B.

Subjects

Condensed Matter - Materials Science

Abstract

This supplemental material gives additional detail on Experimental Methods and Hard X-ray FEL Source Characteristics, Calculation of Maximum Speckle Contrast, Extracting Contrast of Weak Speckle Patterns, Estimated Temperature Increase from X-ray Absorption, Split-Pulse XPCS Feasibility, and Sample Disturbance During Single Pulses., Comment: This is the supplemental material for arXiv:1207.2458 by the same authors entitled: "High Contrast X-ray Speckle from Atomic-Scale Order in Liquids and Glasses"

Published

2012

39. High Contrast X-ray Speckle from Atomic-Scale Order in Liquids and Glasses

Author

Hruszkewycz, S. O., Sutton, M., Fuoss, P. H., Adams, B., Rosenkranz, S., Ludwig Jr., K. F., Roseker, W., Fritz, D., Cammarata, M., Zhu, D., Lee, S., Lemke, H., Gutt, C., Robert, A., Gruebel, G., and Stephenson, G. B.

Subjects

Condensed Matter - Materials Science

Abstract

The availability of ultrafast pulses of coherent hard x-rays from the Linac Coherent Light Source opens new opportunities for studies of atomic-scale dynamics in amorphous materials. Here we show that single ultrafast coherent x-ray pulses can be used to observe the speckle contrast in the high-angle diffraction from liquid Ga and glassy Ni2Pd2P and B2O3. We determine the thresholds above which the x-ray pulses disturb the atomic arrangements. Furthermore, high contrast speckle is observed in scattering patterns from the glasses integrated over many pulses, demonstrating that the source and optics are sufficiently stable for x-ray photon correlation spectroscopy studies of dynamics over a wide range of time scales.

Published

2012

40. Electron-phonon coupling in the conventional superconductor YNi$_2$B$_2$C at high phonon energies studied by time-of-flight neutron spectroscopy

Author

Weber, F., Rosenkranz, S., Pintschovius, L., Castellan, J. -P., Osborn, R., Reichardt, W., Heid, R., Bohnen, K. -P., Goremychkin, E. A., Kreyssig, A., Hradil, K., and Abernathy, D. L.

Subjects

Condensed Matter - Superconductivity

Abstract

We report an inelastic neutron scattering investigation of phonons with energies up to 159 meV in the conventional superconductor YNi$_2$B$_2$C. Using the SWEEP mode, a newly developed time-of-flight technique involving the continuous rotation of a single crystal specimen, allowed us to measure a four dimensional volume in (Q,E) space and, thus, determine the dispersion surface and linewidths of the $A_{1g}$ (~ 102 meV) and $A_u$ (~ 159 meV) type phonon modes for the whole Brillouin zone. Despite of having linewidths of $\Gamma = 10 meV$, $A_{1g}$ modes do not strongly contribute to the total electron-phonon coupling constant $\lambda$. However, experimental linewidths show a remarkable agreement with ab-initio calculations over the complete phonon energy range demonstrating the accuracy of such calculations in a rare comparison to a comprehensive experimental data set., Comment: accepted for publication in PRL

Published

2012

41. Response of acoustic phonons to charge and orbital order in the 50\% doped bilayer manganite LaSr$_2$Mn$_2$O$_7$

Author

Weber, F., Rosenkranz, S., Castellan, J. -P., Osborn, R., Zheng, H., Mitchell, J. F., Chen, Y., Chi, Songxue, Lynn, J. W., and Reznik, D.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We report an inelastic neutron scattering study of acoustic phonons in the charge and orbitally ordered bilayer manganite LaSr$_2$Mn$_2$O$_7$. For excitation energies less than $15\,\rm{meV}$, we observe an abrupt increase (decrease) of the phonon energies (linewidths) of a transverse acoustic phonon branch at $\mathbf{q} = (h, h, 0)$, $h\le0.3$, upon entering the low temperature charge and orbital ordered state ($T_{COO} = 225\,\rm{K}$). This indicates a reduced electron-phonon coupling due to a decrease of electronic states at the Fermi level leading to a partial removal of the Fermi surface below $T_{COO}$ and provides direct experimental evidence for a link between electron-phonon coupling and charge order in manganites., Comment: accepted in Physical Review Letters

Published

2011

42. Effect of Fermi Surface Nesting on Resonant Spin Excitations in Ba1-xKxFe2As2

Author

Castellan, J. -P., Rosenkranz, S., Goremychkin, E. A., Chung, D. Y., Todorov, I. S., Kanatzidis, M. G., Eremin, I., Knolle, J., Chubukov, A. V., Maiti, S., Norman, M. R., Weber, F., Claus, H., Guidi, T., Bewley, R. I., and Osborn, R.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We report inelastic neutron scattering measurements of the resonant spin excitations in Ba1-xKxFe2As2 over a broad range of electron band filling. The fall in the superconducting transi- tion temperature with hole doping coincides with the magnetic excitations splitting into two incom- mensurate peaks because of the growing mismatch in the hole and electron Fermi surface volumes, as confirmed by a tight-binding model with s+- symmetry pairing. The reduction in Fermi surface nesting is accompanied by a collapse of the resonance binding energy and its spectral weight caused by the weakening of electron-electron correlations., Comment: 4 pages 4 figures

Published

2011

43. Electron-Phonon Coupling and the Soft Phonon Mode in TiSe$_2$

Author

Weber, F., Rosenkranz, S., Castellan, J. -P., Osborn, R., Karapetrov, G., Hott, R., Heid, R., Bohnen, K. -P., and Alatas, A.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We report high-resolution inelastic x-ray measurements of the soft phonon mode in the charge-density-wave compound TiSe$_2$. We observe a complete softening of a transverse optic phonon at the L point, i.e. q = (0.5, 0, 0.5), at T ~ T_{CDW}. Renormalized phonon energies are observed over a large wavevector range $(0.3, 0, 0.5) \le \mathbf{q} \le (0.5, 0, 0.5)$. Detailed ab-initio calculations for the electronic and lattice dynamical properties of TiSe2 are in quantitative agreement with experimental frequencies for the phonon branch involving the soft mode. The observed broad range of renormalized phonon frequencies is directly related to a broad peak in the electronic susceptibility stabilizing the charge-density-wave ordered state. Our analysis demonstrates that a conventional electron-phonon coupling mechanism can explain a structural instability and the charge-density-wave order in TiSe_2 although other mechanisms might further boost the transition temperature.

Published

2011

44. Extended Phonon Collapse and the Origin of the Charge-Density-Wave in NbSe$_2$

Author

Weber, F., Rosenkranz, S., Castellan, J. -P., Osborn, R., Hott, R., Heid, R., Bohnen, K. -P., Egami, T., Said, A. H., and Reznik, D.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We report inelastic x-ray scattering measurements of the temperature dependence of phonon dispersion in the prototypical charge-density-wave (CDW) compound NbSe2. Surprisingly, acoustic phonons soften to zero frequency and become overdamped over an extended region around the CDW wavevector. This extended phonon collapse is dramatically different from the sharp cusp in the phonon dispersion expected from Fermi surface nesting. Instead, our experiments combined with ab initio calculations, show that it is the wavevector dependence of the electron-phonon coupling that drives the CDW formation in NbSe$_2$ and determines its periodicity. This mechanism explains the so far enigmatic behavior of CDW in NbSe$_2$ and may provide a new approach to other strongly correlated systems where electron-phonon coupling is important.

Published

2011

45. d-d Excitations in Bilayer Manganites Probed by Resonant Inelastic X-ray Scattering

Author

Weber, F., Rosenkranz, S., Castellan, J. -P., Osborn, R., Mitchell, J. F., Zheng, H., Casa, D., Kim, J. H., and Gog, T.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We report a high resolution resonant inelastic x-ray scattering investigation of the bilayer manganites La$_{2-2x}$Sr$_{1+2x}$Mn$_2$O$_7$ with $x = 0.36$ and $0.5$. The momentum dependence along the crystallographic $(110)$ direction for energy losses $1\,\rm{eV} \leq \Delta E \leq 15\,\rm{eV}$ has been measured in detail with the data analysis focusing on the energy loss region $1\,\rm{eV} \leq \Delta E \leq 5\,\rm{eV}$, which includes a strong peak located at $\Delta E \approx 2\,\rm{eV}$. We observe a clear dispersion of up to $0.5\,\rm{eV}$ in the measured $\textbf{q}$ range, which is direct evidence of the non-local character of this excitation. Further, we found that the intensity in this low energy region strongly depends on both the reduced wave vector $\textbf{q} = (h, h, 0)$, $h = 0.1 - 0.5$, and temperature, i.e. different ordered phases. Results can be explained via an intersite $d-d$ charge transfer excitation, proposed for pseudo-cubic manganites, where the hopping rate is strongly increased (decreased) by ferromagnetic (antiferromagnetic) alignment of neighboring in-plane Mn ion core spins.

Published

2010

46. Comment on 'Circular Dichroism in the Angle-Resolved Photoemission Spectrum of the High-Temperature Bi2Sr2CaCu2O8 Superconductor'

Author

Norman, M. R., Kaminski, A., Rosenkranz, S., and Campuzano, J. C.

Subjects

Condensed Matter - Superconductivity

Abstract

Comment on "Circular Dichroism in the Angle-Resolved Photoemission Spectrum of the High-Temperature Bi2Sr2CaCu2O8 Superconductor: Can These Measurements Be Interpreted as Evidence for Time-Reversal Symmetry Breaking?", Comment: 1 page

Published

2010

47. Incommensurate spin-density wave and magnetic lock-in transition in CaFe4As3

Author

Manuel, P., Chapon, L. C., Todorov, I. S., Chung, D. Y., Castellan, J. -P., Rosenkranz, S., Osborn, R., Toledano, P., and Kanatzidis, M. G.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The magnetic structure for the newly discovered iron-arsenide compound \CaFeAs has been studied by neutron powder diffraction. Long-range magnetic order is detected below 85K, with an incommensurate modulation described by the propagation vector k=(0,$\delta$,0), $\delta\sim$ 0.39. Below $\sim$ 25K, our measurements detect a first-order phase transition where $\delta$ locks into the commensurate value 3/8. A model of the magnetic structure is proposed for both temperature regimes, based on Rietveld refinements of the powder data and symmetry considerations. The structures correspond to longitudinal spin-density-waves with magnetic moments directed along the \textit{b}-axis. A Landau analysis captures the change in thermodynamic quantities observed at the two magnetic transitions, in particular the drop in resistivity at the lock-in transition.

Published

2010

48. Observation of a d-wave nodal liquid in highly underdoped Bi_2Sr_2CaCu_2O_{8+\delta}

Author

Chatterjee, U., Shi, M., Ai, D., Zhao, J., Kanigel, A., Rosenkranz, S., Raffy, H., Li, Z. Z., Kadowaki, K., Hinks, D. G., Xu, Z. J., Wen, J. S., Gu, G., Lin, C. T., Claus, H., Norman, M. R., Randeria, M., and Campuzano, J. C.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We use angle resolved photoemission spectroscopy to probe the electronic excitations of the non-superconducting state that exists between the antiferromagnetic Mott insulator at zero doping and the superconducting state at larger dopings in Bi_2Sr_2CaCu_2O_{8+\delta}. We find that this state is a nodal liquid whose excitation gap becomes zero only at points in momentum space. Despite exhibiting a resistivity characteristic of an insulator and the absence of coherent quasiparticle peaks, this material has the same gap structure as the d-wave superconductor. We observe a smooth evolution of the spectrum across the insulator-to-superconductor transition, which suggests that high temperature superconductivity emerges when quantum phase coherence is established in a non-superconducting nodal liquid., Comment: 16 pages, 5 figures

Published

2009

49. Inelastic Neutron Scattering Studies of the Spin and Lattice Dynamics in Iron Arsenide Compounds

Author

Osborn, R., Rosenkranz, S., Goremychkin, E. A., and Christianson, A. D.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

Neutrons have played an important role in advancing our understanding of the pairing mechanism and the symmetry of the superconducting energy gap in the iron arsenide compounds. Neutron measurements of the phonon density-of-state are in good agreement with ab initio calculations, provided the magnetism of the iron atoms is taken into account. However, the predicted superconducting transition temperatures are less than 1 K, making a conventional phononic mechanism for superconductivity highly unlikely. Measurements of the spin dynamics within the spin density wave phase of the parent compounds show evidence of strongly dispersive spin waves with exchange interactions consistent with the observed magnetic order. Antiferromagnetic fluctuations persist in the normal phase of the superconducting compounds, but they are more diffuse. Below Tc, there is evidence compounds that these fluctuations condense into a resonant spin excitation at the antiferromagnetic wavevector with an energy that scales with Tc, consistent with unconventional superconductivity of extended-s+/- wave symmetry., Comment: Review for the Physica C Special Edition on Superconducting Pnictides, 13 pages, 9 figures

Published

2009

50. Adults with congenital heart disease and pulmonary arterial hypertension: Quantitative assessment of haemodynamic parameters under disease targeting therapy - A retrospective multicentre analysis

Author

Von Stein, P, primary, D'alto, M, additional, Diller, G, additional, Orwat, S, additional, Dumitrescu, D, additional, Giannakoulas, G, additional, Arvanitaki, A, additional, Momcilovic, D, additional, Hohmann, C, additional, and Rosenkranz, S, additional

Published

2023