Your search keyword '"Bewley, R."' showing total 383 results

1. Cooper-Pair Localization in the Magnetic Dynamics of a Cuprate Ladder

Author

Scheie, A., Laurell, P., Thomas, J., Sharma, V., Kolesnikov, A. I., Granroth, G. E., Zhang, Q., Lake, B., Mihalik Jr., M., Bewley, R. I., Eccleston, R. S., Akimitsu, J., Dagotto, E., Batista, C. D., Alvarez, G., Johnston, S., and Tennant, D. A.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity

Abstract

We investigate the spin dynamics of the cuprate ladder Sr$_{2.5}$Ca$_{11.5}$Cu$_{24}$O$_{41}$ to elucidate the behavior of its intrinsically doped holes. Combining high-resolution neutron spectroscopy and density matrix renormalization group calculations enables a comprehensive analysis of the collective magnetic dynamics. We find a general absence of magnetic signatures from unpaired charges, indicating holes within the system form strongly bound localized Cooper pairs. A one-band Hubbard model fails to match the spectral features but a straightforward extension to a large attractive nearest-neighbor interaction quantitatively explains our results. Our finding shows the significance of additional interactions beyond the long-predicted quantum spin pairing in the ($d$-wave) charge pairing process. Considering the parallels between ladders and two-dimensional cuprates, these results are potentially relevant for square lattices as well., Comment: Main text plus supplementary material

Published

2025

2. Fingerprints of supersymmetric spin and charge dynamics observed by inelastic neutron scattering

Author

Wehinger, B., Lisandrini, F. T., Kestin, N., Bouillot, P., Ward, S., Biner, D., Bewley, R., Krämer, K. W., Normand, B., Kollath, C., Giamarchi, T., Läuchli, A. M., and Rüegg, Ch.

Subjects

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

Abstract

Supersymmetry is an algebraic property of a class of quantum Hamiltonians, a guiding principle used in the development of nuclear theory and a concept that may underpin physics beyond the Standard Model. In condensed matter, any symmetry between bosonic and fermionic entities is usually strongly broken, as for the spin and charge sectors of the $t$-$J$ model describing the dynamics of fractionalized electrons in one-dimensional materials. While the triplet excitations of a quantum spin ladder in an applied magnetic field provide a close analogue of the $t$-$J$ chain, the supersymmetric nature of this system has not been explored. Here we perform neutron spectroscopy on the spin-ladder compounds (C$_5$D$_{12}$N)$_2$CuBr$_4$ and (C$_5$D$_{12}$N)$_2$CuCl$_4$ over a range of applied fields and temperatures, and apply matrix-product-state (MPS) methods to the ladder and equivalent chain models, to analyse the full, momentum-resolved dynamics of a single charge excitation in a bath of fractionalized spins. We find a dramatic difference in the effects of thermal fluctuations, where strong and coherent shifts of spectral weight at the zone edge contrast with a strict pole at the zone centre, whose persistence at all temperatures constitutes an observable consequence of supersymmetry in a quantum spin ladder.

Published

2024

3. Dynamics of K$_2$Ni$_2$(SO$_4$)$_3$ governed by proximity to a 3D spin liquid model

Author

Gonzalez, M. G., Noculak, V., Sharma, A., Favre, V., Soh, J-R., Magrez, A., Bewley, R., Jeschke, H. O., Reuther, J., Rønnow, H. M., Iqbal, Y., and Živković, I.

Subjects

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

Abstract

Quantum spin liquids (QSLs) have become a key area of research in magnetism due to their remarkable properties, such as long-range entanglement, fractional excitations, pinch-point singularities, and topologically protected phenomena. In recent years, the search for QSLs has expanded into the three-dimensional world, where promising features have been found in materials that form pyrochlore and hyper-kagome lattices, despite the suppression of quantum fluctuations due to high dimensionality. One such material is the $S = 1$ K$_2$Ni$_2$(SO$_4$)$_3$ compound, which belongs to the langbeinite family consisting of two interconnected trillium lattices. Although magnetically ordered, K$_2$Ni$_2$(SO$_4$)$_3$ has been found to exhibit a highly dynamical and correlated state which can be driven into a pure quantum spin liquid under magnetic fields of only $B \simeq 4$~T. In this article, we combine inelastic neutron scattering measurements with pseudo-fermion functional renormalization group (PFFRG) and classical Monte Carlo (cMC) calculations to study the magnetic properties of K$_2$Ni$_2$(SO$_4$)$_3$, revealing a high level of agreement between the experiment and theory. We further reveal the origin of the dynamical state in K$_2$Ni$_2$(SO$_4$)$_3$ by studying a larger set of exchange parameters, uncovering an `island of liquidity' around a focal point given by a magnetic network composed of tetrahedra on a trillium lattice.

Published

2023

4. Competing spin-orbital singlet states in the 4$d^4$ honeycomb ruthenate Ag$_3$LiRu$_2$O$_6$

Author

Takayama, T., Blankenhorn, M., Bertinshaw, J., Haskel, D., Bogdanov, N. A., Kitagawa, K., Yaresko, A. N., Krajewska, A., Bette, S., McNally, G., Gibbs, A. S., Matsumoto, Y., Sari, D. P., Watanabe, I., Fabbris, G., Bi, W., Larkin, T. I., Rabinovich, K. S., Boris, A. V., Ishii, H., Yamaoka, H., Irifune, T., Bewley, R., Ridley, C. J., Bull, C. L., Dinnebier, R., Keimer, B., and Takagi, H.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

When spin-orbit-entangled $d$-electrons reside on a honeycomb lattice, rich quantum states are anticipated to emerge, as exemplified by the $d^5$ Kitaev materials. Distinct yet equally intriguing physics may be realized with a $d$-electron count other than $d^5$. We found that the layered ruthenate Ag$_3$LiRu$_2$O$_6$ with $d^4$ Ru$^{4+}$ ions at ambient pressure forms a honeycomb lattice of spin-orbit-entangled singlets, which is a playground for frustrated excitonic magnetism. Under pressure, the singlet state does not develop the expected excitonic magnetism but experiences two successive transitions to other nonmagnetic phases, first to an intermediate phase with moderate distortion of honeycomb lattice, and eventually to a high-pressure phase with very short Ru-Ru dimer bonds. While the strong dimerization in the high-pressure phase originates from a molecular orbital formation as in the sister compound Li$_2$RuO$_3$, the intermediate phase represents a spin-orbit-coupled $J$-dimer state which is stabilized by the admixture of upper-lying $J_{\rm eff} = 1$-derived states. We argue that the $J$-dimer state is induced by a pseudo-Jahn-Teller effect associated with the low-lying spin-orbital excited states and is unique to spin-orbit-entangled $d^4$ systems. The discovery of competing singlet phases demonstrates rich spin-orbital physics of $d^4$ honeycomb compounds and paves the way for realization of unconventional magnetism., Comment: 12 pages, 5 figures

Published

2022

5. Topological magnon band structure of emergent Landau levels in a skyrmion lattice

Author

Weber, T., Fobes, D. M., Waizner, J., Steffens, P., Tucker, G. S., Böhm, M., Beddrich, L., Franz, C., Gabold, H., Bewley, R., Voneshen, D., Skoulatos, M., Georgii, R., Ehlers, G., Bauer, A., Pfleiderer, C., Böni, P., Janoschek, M., and Garst, M.

Subjects

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

Abstract

The motion of a spin excitation across topologically non-trivial magnetic order exhibits a deflection that is analogous to the effect of the Lorentz force on an electrically charged particle in an orbital magnetic field. We used polarized inelastic neutron scattering to investigate the propagation of magnons (i.e., bosonic collective spin excitations) in a lattice of skyrmion tubes in manganese silicide. For wave vectors perpendicular to the skyrmion tubes, the magnon spectra are consistent with the formation of finely spaced emergent Landau levels that are characteristic of the fictitious magnetic field used to account for the nontrivial topological winding of the skyrmion lattice. This provides evidence of a topological magnon band structure in reciprocal space, which is borne out of the nontrivial real-space topology of a magnetic order.

Published

2022

6. Metastable antiphase boundary ordering in CaFe$_{2}$O$_{4}$

Author

Lane, H., Rodriguez, E. E., Walker, H. C., Niedermayer, Ch., Stuhr, U., Bewley, R. I., Voneshen, D. J., Green, M. A., Rodriguez-Rivera, J. A., Fouquet, P., Cheong, S. -W., Attfield, J. P., Ewings, R. A., and Stock, C.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

CaFe$_{2}$O$_{4}$ is an $S=5/2$ antiferromagnet exhibiting two magnetic orders which shows regions of coexistence at some temperatures. Using a Green's function formalism, we model neutron scattering data of the spin wave excitations in this material, ellucidating the microscopic spin Hamiltonian. In doing so, we suggest that the low temperature A phase order $(\uparrow\uparrow\downarrow\downarrow)$ finds its origins in the freezing of antiphase boundaries created by thermal fluctuations in a parent B phase order $(\uparrow\downarrow\uparrow\downarrow)$. The low temperature magnetic order observed in CaFe$_{2}$O$_{4}$ is thus the result of a competition between the exchange coupling along $c$, which favors the B phase, and the single-ion anisotropy which stabilizes thermally-generated antiphase boundaries, leading to static metastable A phase order at low temperatures., Comment: 16 pages, 10 figures

Published

2021

7. Magnetic correlations in triangular antiferromagnet FeGa$_2$S$_4$

Author

Guratinder, K., Schmidt, M., Walker, H. C., Bewley, R., Wörle, M., Cabra, D., Osorio, S. A., Villalba, M., Madsen, A. K., Keller, L., Wildes, A., Puphal, P., Cervellino, A., Rüegg, Ch., and Zaharko, O.

Subjects

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

Abstract

The crystal structure and magnetic correlations in triangular antiferromagnet FeGa$_2$S$_4$ are studied by x-ray diffraction, magnetic susceptibility, neutron diffraction and neutron inelastic scattering. We report significant mixing at the cation sites and disentangle magnetic properties dominated by major and minor magnetic sites. The magnetic short-range correlations at 0.77 \AA$^{-1}$ correspond to the major sites and being static at base temperature they evolve into dynamic correlations around 30 - 50 K. The minor sites contribute to the magnetic peak at 0.6 \AA$^{-1}$, which vanishes at 5.5 K. Our analytical studies of triangular lattice models with bilinear and biquadratic terms provide the ratios between exchanges for the proposed ordering vectors. The modelling of the inelastic neutron spectrum within linear spin wave theory results in the set of exchange couplings $J_1=1.7$\,meV, $J_2=0.9$\,meV, $J_3=0.8$\,meV for the bilinear Heisenberg Hamiltonian. However, not all features of the excitation spectrum are explained with this model., Comment: Accepted in Phys. Rev. B

Published

2021

8. Weak three-dimensional coupling of Heisenberg quantum spin chains in SrCuTe$_{2}$O$_{6}$

Author

Chillal, S., Islam, A. T. M. N., Steffens, P., Bewley, R., and Lake, B.

Subjects

Condensed Matter - Strongly Correlated Electrons, Quantum Physics

Abstract

The magnetic Hamiltonian of the Heisenberg quantum antiferromagnet SrCuTe$_{2}$O$_{6}$ is studied by inelastic neutron scattering technique on powder and single crystalline samples above and below the magnetic transition temperatures at 8 K and 2 K. The high temperature spectra reveal a characteristic diffuse scattering corresponding to a multi-spinon continuum confirming the dominant quantum spin-chain behavior due to the third neighbour interaction J$_{intra}$ = 4.22 meV (49 K). The low temperature spectra exhibits sharper excitations at energies below 1.25 meV which can be explained by considering a combination of weak antiferromagnetic first nearest neighbour interchain coupling J$_1$ = 0.17 meV (1.9 K) and even weaker ferromagnetic second nearest neighbour J$_2$ = -0.037 meV (-0.4 K) or a weak ferromagnetic J$_2$ = -0.11 meV (-1.3 K) and antiferromagnetic J$_6$ = 0.16 meV (1.85 K) giving rise to the long-range magnetic order and spin-wave excitations at low energies. These results suggest that SrCuTe$_{2}$O$_{6}$ is a highly one-dimensional Heisenberg system with three mutually perpendicular spin-chains coupled by a weak ferromagnetic J$_2$ in addition to the antiferromagnetic J$_1$ or J$_6$ presenting a contrasting scenario from the highly frustrated hyper-hyperkagome lattice (equally strong antiferromagnetic J$_1$ and J$_2$) found in the iso-structural PbCuTe$_{2}$O$_{6}$., Comment: 9 pages, 5+2 figures

Published

2021

9. Magnetic-field-controlled spin fluctuations and quantum criticality in Sr3Ru2O7

Author

Lester, C., Ramos, S., Perry, R. S., Croft, T. P., Laver, M., Bewley, R. I., Guidi, T., Hiess, A., Wildes, A., Forgan, E. M., and Hayden, S. M.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

When the transition temperature of a continuous phase transition is tuned to absolute zero, new ordered phases and physical behaviour emerge in the vicinity of the resulting quantum critical point. Sr3Ru2O7 can be tuned through quantum criticality with magnetic field at low temperature. Near its critical field Bc it displays the hallmark T-linear resistivity and a T log(1/T) electronic heat capacity behaviour of strange metals. However, these behaviours have not been related to any critical fluctuations. Here we use inelastic neutron scattering to reveal the presence of collective spin fluctuations whose relaxation time and strength show a nearly singular variation with magnetic field as Bc is approached. The large increase in the electronic heat capacity and entropy near Bc can be understood quantitatively in terms of the scattering of conduction electrons by these spin-fluctuations. On entering the spin density wave (SDW) phase present near Bc, the fluctuations become stronger suggesting that the SDW order is stabilised through an "order-by-disorder" mechanism.

Published

2021

10. Neutron scattering studies on spin fluctuations in Sr$_2$RuO$_4$

Author

Jenni, K., Kunkemöller, S., Steffens, P., Sidid, Y., Bewley, R., Mao, Z. Q., Maeno, Y., and Braden, M.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

The magnetic excitations in Sr$_2$RuO$_4$ are studied by polarized and unpolarized neutron scattering experiments as a function of temperature. At the scattering vector of the Fermi-surface nesting with a half-integer out-of-plane component, there is no evidence for the appearance of a resonance excitation in the superconducting phase. The body of existing data indicates weakening of the scattered intensity in the nesting spectrum to occur at very low energies. The nesting signal persists up to 290 K but is strongly reduced. In contrast, a quasi-ferromagnetic contribution maintains its strength and still exhibits a finite width in momentum space.

Published

2021

11. Finite-temperature dynamics and the role of disorder in nearly critical Ni(Cl$_{1-x}$Br$_x$)$_2$$\cdot$4SC(NH$_2$)$_2$

Author

Facheris, L., Blosser, D., Povarov, K. Yu., Bewley, R., Gvasaliya, S., and Zheludev, A.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Inelastic neutron scattering is used to investigate the temperature dependence of spin correlations in the 3-dimensional XY antiferromagnet Ni(Cl$_{1-x}$Br$_x$)$_2$$\cdot$4SC(NH$_2$)$_2$, $ x = 0.14(1)$, tuned close to the chemical-composition-induced soft-mode transition. The local dynamic structure factor shows $\hbar\omega/T$ scaling behavior characteristic of a quantum critical point. The deviation of the measured critical exponent from spin wave theoretical expectations are attributed to disorder. Another effect of disorder is local excitations above the magnon band. Their energy, structure factor and temperature dependence are well explained by simple strong-bond dimers associated with Br-impurity sites., Comment: 10 pages, 10 figures

Published

2020

12. Gradual pressure-induced enhancement of magnon excitations in CeCoSi

Author

Nikitin, S. E., Franco, D. G., Kwon, J., Bewley, R., Podlesnyak, A., Hoser, A., Koza, M. M., Geibel, C., and Stockert, O.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

CeCoSi is an intermetallic antiferromagnet with a very unusual temperature-pressure phase diagram: at ambient pressure it orders below $T_{\mathrm{N}} = 8.8$ K, while application of hydrostatic pressure induces a new magnetically ordered phase with exceptionally high transition temperature of $\sim40$ K at 1.5 GPa. We studied the magnetic properties and the pressure-induced magnetic phase of CeCoSi by means of elastic and inelastic neutron scattering (INS) and heat capacity measurements. At ambient pressure CeCoSi orders into a simple commensurate AFM structure with a reduced ordered moment of only $m_{\mathrm{Ce}} = 0.37(6)$ $\mu_{\mathrm{B}}$. Specific heat and low-energy INS indicate a significant gap in the low-energy magnon excitation spectrum in the antiferromagnetic phase, with the CEF excitations located above 10 meV. Hydrostatic pressure gradually shifts the energy of the magnon band towards higher energies, and the temperature dependence of the magnons measured at 1.5 GPa is consistent with the phase diagram. Moreover, the CEF excitations are also drastically modified under pressure., Comment: 8 pages, 11 figures

Published

2020

13. Upgrade of the MARI spectrometer at ISIS

Author

Le, M.D., Guidi, T., Bewley, R., Stewart, J.R., Schooneveld, E.M., Raspino, D., Pooley, D.E., Boxall, J., Gascoyne, K.F., Rhodes, N.J., Moorby, S.R., Templeman, D.J., Afford, L.C., Waller, S.P., Zacek, D., and Shaw, R.C.R.

Published

2023

14. Magnon spectrum of the Weyl semimetal half-Heusler compound GdPtBi

Author

Sukhanov, A. S., Onykiienko, Y. A., Bewley, R., Shekhar, C., Felser, C., and Inosov, D. S.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The compound GdPtBi is known as a material where the non-trivial topology of electronic bands interplays with an antiferromagnetic order, which leads to the emergence of many interesting magnetotransport phenomena. Although the magnetic structure of the compound has previously been reliably determined, the magnetic interactions responsible for this type of order remained controversial. In the present study, we employed time-of-flight inelastic neutron scattering to map out the low-temperature spectrum of spin excitations in single-crystalline GdPtBi. The observed spectra reveal two spectrally sharp dispersive spin-wave modes, which reflects the multi-domain state of the $\mathbf{k} = (\frac{1}{2}\frac{1}{2}\frac{1}{2})$ face-centred cubic antiferromagnet in the absence of a symmetry-breaking magnetic field. The magnon dispersion reaches an energy of $\sim 1.1$~meV and features a gap of $\sim 0.15$~meV. Using linear spin-wave theory, we determined the main magnetic microscopic parameters of the compound that provide good agreement between the simulated spectra and the experimental data. We show that GdPtBi is well within the ($\frac{1}{2}\frac{1}{2}\frac{1}{2}$) phase and is dominated by second-neighbor interactions, thus featuring low frustration., Comment: 8 pages, 5 figures

Published

2019

15. Upgrade to the MAPS neutron time-of-flight chopper spectrometer

Author

Ewings, R. A., Stewart, J. R., Perring, T. G., Bewley, R. I., Le, M. D., Raspino, D., Pooley, D. E., Škoro, G., Waller, S. P., Zacek, D., Smith, C. A., and Riehl-Shaw, R. C.

Subjects

Physics - Instrumentation and Detectors

Abstract

The MAPS direct geometry time-of-flight chopper spectrometer at the ISIS pulsed neutron and muon source has been in operation since 1999 and its novel use of a large array of position-sensitive neutron detectors paved the way for a later generations of chopper spectrometers around the world. Almost two decades of experience of user operations on MAPS, together with lessons learned from the operation of new generation instruments, led to a decision to perform three parallel upgrades to the instrument. These were to replace the primary beamline collimation with supermirror neutron guides, to install a disk chopper, and to modify the geometry of the poisoning in the water moderator viewed by MAPS. Together these upgrades were expected to increase the neutron flux substantially, to allow more flexible use of repetition rate multiplication and to reduce some sources of background. Here we report the details of these upgrades, and compare the performance of the instrument before and after their installation, as well as to Monte Carlo simulations. These illustrate that the instrument is performing in line with, and in some respects in excess of, expectations. It is anticipated that the improvement in performance will have a significant impact on the capabilities of the instrument. A few examples of scientific commissioning are presented to illustrate some of the possibilities., Comment: 17 pages, 15 figures

Published

2018

16. Thermal control of spin excitations in the coupled Ising-chain material RbCoCl3

Author

Mena, M., Hänni, N., Ward, S., Hirtenlechner, E., Bewley, R., Hubig, C., Schollwöck, U., Normand, B., Krämer, K. W., McMorrow, D. F., and Rüegg, Ch.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We have used neutron spectroscopy to investigate the spin dynamics of the quantum (S = 1/2) antiferromagnetic Ising chains in RbCoCl3. The structure and magnetic interactions in this material conspire to produce two magnetic phase transitions at low temperatures, presenting an ideal opportunity for thermal control of the chain environment. The high-resolution spectra we measure of two-domain-wall excitations therefore characterize precisely both the continuum response of isolated chains and the "Zeeman-ladder" bound states of chains in three different effective staggered fields in one and the same material. We apply an extended Matsubara formalism to obtain a quantitative description of the entire dataset, Monte Carlo simulations to interpret the magnetic order, and finite-temperature DMRG calculations to fit the spectral features of all three phases., Comment: 6 pages, 4 figures. Supplemental material included

Published

2018

17. A simple way of calibrating the sample flux and moderator time structures for neutron instruments at pulsed spallation sources

Author

Bewley, R. and Pooley, D.E.

Published

2022

18. Evidence for a three-dimensional quantum spin liquid in PbCuTe$_{2}$O$_{6}$

Author

Chillal, S., Iqbal, Y., Jeschke, H. O., Rodriguez-Rivera, J. A., Bewley, R., Manuel, P., Khalyavin, D., Steffens, P., Thomale, R., Islam, A. T. M. N., Reuther, J., and Lake, B.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The quantum spin liquid (QSL) is a highly entangled magnetic state characterized by the absence of static magnetism in its ground state. Instead, the spins fluctuate in a highly correlated way down to the lowest temperatures. The QSL is very rare and is confined to a few specific cases where the interactions between the magnetic ions cannot be simultaneously satisfied (known as frustration). Lattices with magnetic ions in triangular or tetrahedral arrangements which interact via isotropic antiferromagnetic interactions can generate such a frustration. Three-dimensional isotropic spin liquids have mostly been sought in materials where the magnetic ions form pyrochlore or hyperkagome lattices. Here we present a three-dimensional lattice called the hyper-hyperkagome that enables spin liquid behaviour and manifests in the compound PbCuTe$_{2}$O$_{6}$. Using a combination of experiment and theory we show that this system exhibits signs of being a quantum spin liquid with no detectable static magnetism together with the presence of diffuse continua in the magnetic spectrum suggestive of fractional spinon excitations., Comment: 20 pages, 4 figures

Published

2017

19. Tunable Emergent Heterostructures in a Prototypical Correlated Metal

Author

Fobes, David M, Zhang, S., Lin, S. -Z., Das, Pinaki, Ghimire, N. J., Bauer, E. D., Thomson, J. D., Harriger, L. W., Ehlers, G., Podlesnyak, A., Bewley, R. I., Sazonov, A., Hutanu, V., Ronning, F., Batista, C. D., and Janoschek, M.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

At the interface between two distinct materials desirable properties, such as superconductivity, can be greatly enhanced, or entirely new functionalities may emerge. Similar to in artificially engineered heterostructures, clean functional interfaces alternatively exist in electronically textured bulk materials. Electronic textures emerge spontaneously due to competing atomic-scale interactions, the control of which, would enable a top-down approach for designing tunable intrinsic heterostructures. This is particularly attractive for correlated electron materials, where spontaneous heterostructures strongly affect the interplay between charge and spin degrees of freedom. Here we report high-resolution neutron spectroscopy on the prototypical strongly-correlated metal CeRhIn5, revealing competition between magnetic frustration and easy-axis anisotropy -- a well-established mechanism for generating spontaneous superstructures. Because the observed easy-axis anisotropy is field-induced and anomalously large, it can be controlled efficiently with small magnetic fields. The resulting field-controlled magnetic superstructure is closely tied to the formation of superconducting and electronic nematic textures in CeRhIn5, suggesting that in-situ tunable heterostructures can be realized in correlated electron materials.

Published

2017

20. Bound states and field-polarized Haldane modes in a quantum spin ladder

Author

Ward, S., Bouillot, P., Kollath, C., Giamarchi, T., Schmidt, K. P., Normand, B., Krämer, K. W., Biner, D., Bewley, R., Guidi, T., Boehm, M., McMorrow, D. F., and Rüegg, Ch.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The challenge of one-dimensional systems is to understand their physics beyond the level of known elementary excitations. By high-resolution neutron spectroscopy in a quantum spin ladder material, we probe the leading multiparticle excitation by characterizing the two-magnon bound state at zero field. By applying high magnetic fields, we create and select the singlet (longitudinal) and triplet (transverse) excitations of the fully spin-polarized ladder, which have not been observed previously and are close analogs of the modes anticipated in a polarized Haldane chain. Theoretical modelling of the dynamical response demonstrates our complete quantitative understanding of these states., Comment: 6 pages, 3 figures plus supplementary material 7 pages 5 figures

Published

2016

21. Emergent interacting spin islands in a depleted strong-leg Heisenberg ladder

Author

Schmidiger, D., Povarov, K. Yu., Galeski, S., Reynolds, N., Bewley, R., Guidi, T., Ollivier, J., and Zheludev, A.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Properties of the depleted Heisenberg spin ladder material series (C$_7$H$_{10}$N)$_2$Cu$_{1-z}$Zn$_{z}$Br$_4$ have been studied by the combination of magnetic measurements and neutron spectroscopy. Disorder-induced degrees of freedom lead to a specific magnetic response, described in terms of emergent strongly interacting "spin island" objects. The structure and dynamics of the spin islands is studied by high-resolution inelastic neutron scattering. This allows to determine their spatial shape and to observe their mutual interactions, manifested by strong spectral in-gap contributions.

Published

2016

22. Field tunable spin density wave phases in Sr3Ru2O7

Author

Lester, C., Ramos, S., Perry, R. S., Croft, T. P., Bewley, R. I., Guidi, T., Manuel, P., Khalyavin, D. D., Forgan, E. M., and Hayden, S. M.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The conduction electrons in a metal experience competing interactions with each other and the atomic nuclei. This competition can lead to many types of magnetic order in metals. For example, in chromium the electrons order to form a spin-density-wave (SDW) antiferromagnetic state. A magnetic field may be used to perturb or tune materials with delicately balanced electronic interactions. Here we show that the application of a magnetic field can induce SDW magnetic order in a metal, where none exists in the absence of the field. We use magnetic neutron scattering to show that the application of a large (~8T) magnetic field to the metamagnetic perovskite metal Sr3Ru2O7 can be used to tune the material through two magnetically-ordered SDW states. The ordered states exist over relatively small ranges in field (<0.4T) suggesting that their origin is due to a new mechanism related to the electronic fine structure near the Fermi energy, possibly combined with the stabilising effect of magnetic fluctuations. The magnetic field direction is shown to control the SDW domain populations which naturally explains the strong resistivity anisotropy or electronic nematic behaviour observed in this material., Comment: Legend in Fig. 3(b) corrected

Published

2014

23. Scaling of temporal correlations in an attractive Tomonaga-Luttinger spin liquid

Author

Povarov, K. Yu., Schmidiger, D., Reynolds, N., Bewley, R., and Zheludev, A.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We report temperature-dependent neutron scattering measurements of the local dynamic structure factor in the quantum spin ladder (C$_{7}$H$_{10}$N)$_{2}$CuBr$_{4}$ in a magnetic field $H=9$~T, in its gapless quantum-critical phase. We show that the measured quantity has a scaling form consistent with expectations for a Tomonaga-Luttinger liquid with attraction. The measured Luttinger parameter $K\approx1.25$ and scaling function are in excellent agreement with density matrix renormalization group numerical calculations for the underlying spin Hamiltonian., Comment: 5 pages, 3 figures

Published

2014

24. Excitations in the quantum paramagnetic phase of the quasi-one-dimensional Ising magnet CoNb$_2$O$_6$ in a transverse field: Geometric frustration and quantum renormalization effects

Author

Cabrera, I., Thompson, J. D., Coldea, R., Prabhakaran, D., Bewley, R. I., Guidi, T., Rodriguez-Rivera, J. A., and Stock, C.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The quasi-one-dimensional (1D) Ising ferromagnet CoNb$_2$O$_6$ has recently been driven via applied transverse magnetic fields through a continuous quantum phase transition from spontaneous magnetic order to a quantum paramagnet, and dramatic changes were observed in the spin dynamics, characteristic of weakly perturbed 1D Ising quantum criticality. We report here extensive single-crystal inelastic neutron scattering measurements of the magnetic excitations throughout the three-dimensional (3D) Brillouin zone in the quantum paramagnetic phase just above the critical field to characterize the effects of the finite interchain couplings. In this phase, we observe that excitations have a sharp, resolution-limited line shape at low energies and over most of the dispersion bandwidth, as expected for spin-flip quasiparticles. We map the full bandwidth along the strongly dispersive chain direction and resolve clear modulations of the dispersions in the plane normal to the chains, characteristic of frustrated interchain couplings in an antiferromagnetic isosceles triangular lattice. The dispersions can be well parametrized using a linear spin-wave model that includes interchain couplings and further neighbor exchanges. The observed dispersion bandwidth along the chain direction is smaller than that predicted by a linear spin-wave model using exchange values determined at zero field, and this effect is attributed to quantum renormalization of the dispersion beyond the spin-wave approximation in fields slightly above the critical field, where quantum fluctuations are still significant., Comment: 11 pages, 6 figures. Updated references. Minor changes to text and figures

Published

2014

25. Spectrum of a magnetized strong-leg quantum spin ladder

Author

Schmidiger, D., Bouillot, P., Guidi, T., Bewley, R., Kollath, C., Giamarchi, T., and Zheludev, A.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Inelastic neutron scattering is used to measure the spin excitation spectrum of the Heisenberg $S=1/2$ ladder material (C$_7$H$_10$N)$_2$CuBr$_4$ in its entirety, both in the gapped spin-liquid and the magnetic field induced Tomonaga-Luttinger spin liquid regimes. A fundamental change of the spin dynamics is observed between these two regimes. DMRG calculations quantitatively reproduce and help understand the observed commensurate and incommensurate excitations. The results validate long-standing quantum field theoretical predictions, but also test the limits of that approach.

Published

2013

26. Antiferromagnetic Spin Ice Correlations at (1/2,1/2,1/2) in the Ground State of the Pyrochlore Magnet Tb2Ti2O7

Author

Fritsch, K., Ross, K. A., Qiu, Y., Copley, J. R. D., Guidi, T., Bewley, R. I., Dabkowska, H. A., and Gaulin, B. D.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We present high-resolution single crystal time-of-flight neutron scattering measurements on the candidate quantum spin liquid pyrochlore Tb2Ti2O7 at low temperature and in a magnetic field. At ~70 mK and in zero field, Tb2Ti2O7 reveals diffuse magnetic elastic scattering at (1/2,1/2,1/2) positions in reciprocal space, consistent with short-range correlated regions based on a two-in, two-out spin ice configuration on a doubled conventional unit cell. This elastic scattering is separated from very low-energy magnetic inelastic scattering by an energy gap of ~0.06-0.08 meV. The elastic signal disappears under the application of small magnetic fields and upon elevating temperature. Pinch-point-like elastic diffuse scattering is observed near (1,1,1) and (0,0,2) in zero field at ~70 mK, in agreement with Fennell et al. (Ref. 1), supporting the quantum spin ice interpretation of Tb2Ti2O7., Comment: 7 pages, 6 figures. Replaced previous version with now published version with corrected figure 5

Published

2012

27. Emergence of highly degenerate excited states in frustrated magnet MgCr$_2$O$_4$

Author

Tomiyasu, K., Yokobori, T., Kousaka, Y., Bewley, R. I., Guidi, T., Watanabe, T., Akimitsu, J., and Yamada, K.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

High degeneracy in ground states leads to the generation of exotic zero-energy modes, a representative example of which is the formation of molecular spin liquid-like fluctuations in a frustrated magnet. Here we present single-crystal inelastic neutron scattering results for the frustrated magnet MgCr$_2$O$_4$, which show that a common set of finite-energy molecular spin excitation modes is sustained in both the liquid-like paramagnetic phase and a magnetically ordered phase with an extremely complex structure. Based on this finding, we propose the concept of high degeneracy in excited states, which promotes local resonant elementary excitations. This concept is expected to have ramifications on our understanding of excitations in many complex systems, including not only spin but also atomic liquids, complex order systems, and amorphous systems., Comment: 5 pages, 2 figures

Published

2012

28. 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

29. Spin Waves and Magnetic Exchange Interactions in CaFe2As2

Author

Zhao, Jun, Adroja, D. T., Yao, Dao-Xin, Bewley, R., Li, Shiliang, Wang, X. F., Wu, G., Chen, X. H., Hu, Jiangping, and Dai, Pengcheng

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

Antiferromagnetism is relevant to high temperature (high-Tc) superconductivity because copper oxide and iron arsenide high-Tc superconductors arise from electron- or hole-doping of their antiferromagnetic (AF) ordered parent compounds. There are two broad classes of explanation for the phenomenon of antiferromagnetism: in the local moment picture, appropriate for the insulating copper oxides, AF interactions are well described by a Heisenberg Hamiltonian; while in the itinerant model, suitable for metallic chromium, AF order arises from quasiparticle excitations of a nested Fermi surface. There has been contradictory evidence regarding the microscopic origin of the AF order in iron arsenide materials, with some favoring a localized picture while others supporting an itinerant point of view. More importantly, there has not even been agreement about the simplest effective ground state Hamiltonian necessary to describe the AF order. Here we report inelastic neutron scattering mapping of spin-wave excitations in CaFe2As2, a parent compound of the iron arsenide family of superconductors. We find that the spin waves in the entire Brillouin zone can be described by an effective three-dimensional local moment Heisenberg Hamiltonian, but the large in-plane anisotropy cannot. Therefore, magnetism in the parent compounds of iron arsenide superconductors is neither purely local nor purely itinerant; rather it is a complicated mix of the two., Comment: 18 pages, 4 figures; Nature Physics (2009) In press

Published

2009

30. High energy spin excitations in BaFe2As2

Author

Ewings, R. A., Perring, T. G., Bewley, R. I., Guidi, T., Pitcher, M. J., Parker, D. R., Clarke, S. J., and Boothroyd, A. T.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We report neutron scattering measurements of cooperative spin excitations in antiferromagnetically ordered BaFe2As2, the parent phase of an iron pnictide superconductor. The data extend up to ~100meV and show that the spin excitation spectrum is sharp and highly dispersive. By fitting the spectrum to a linear spin-wave model we estimate the magnon bandwidth to be in the region of 0.17eV. The large characteristic spin fluctuation energy suggests that magnetism could play a role in the formation of the superconducting state., Comment: 4 pages, 4 figures; v2: minor changes to the text and abstract and more general expressions for the linear spin-wave cross section included

Published

2008

31. The crystalline electric field as a probe for long range antiferromagnetic order and superconductivity in CeFeAsO$_{1-x}$F$_x$

Author

Chi, Songxue, Adroja, D. T., Guidi, T., Bewley, R., Li, Shiliang, Zhao, Jun, Lynn, J. W., Brown, C. M., Qiu, Y., Chen, G. F., Lou, J. L., Wang, N. L., and Dai, Pengcheng

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We use inelastic neutron scattering to study the crystalline electric field (CEF) excitations of Ce$^{3+}$ in CeFeAsO$_{1-x}$F$_{x}$($x=0,0.16$). For nonsuperconducting CeFeAsO, the Ce CEF levels have three magnetic doublets in the paramagnetic state, but these doublets split into six singlets when Fe ions order antiferromagnetically. For superconducting CeFeAsO$_{0.84}$F$_{0.16}$ ($T_c=41$ K), where the static AF order is suppressed, the Ce CEF levels have three magnetic doublets at $\hbar\omega=0,18.7,58.4$ meV at all temperatures. Careful measurements of the intrinsic linewidth $\Gamma$ and the peak position of the 18.7 meV mode reveal clear anomaly at $T_c$, consistent with a strong enhancement of local magnetic susceptibility $\chi^{\prime\prime}(\hbar\omega)$ below $T_c$. These results suggest that CEF excitations in the rare-earth oxypnictides can be used as a probe of spin dynamics in the nearby FeAs planes., Comment: 5 pages, 4 figures

Published

2008

32. Resonant Spin Excitation in the High Temperature Superconductor Ba0.6K0.4Fe2As2

Author

Christianson, A. D., Goremychkin, E. A., Osborn, R., Rosenkranz, S., Lumsden, M. D., Malliakas, C. D., Todorov, l. S., Claus, H., Chung, D. Y., Kanatzidis, M. G., Bewley, R. I., and Guidi, T.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

The recent observations of superconductivity at temperatures up to 55K in compounds containing layers of iron arsenide have revealed a new class of high temperature superconductors that show striking similarities to the more familiar cuprates. In both series of compounds, the onset of superconductivity is associated with the suppression of magnetic order by doping holes and/or electrons into the band leading to theories in which magnetic fluctuations are either responsible for or strongly coupled to the superconducting order parameter. In the cuprates, theories of magnetic pairing have been invoked to explain the observation of a resonant magnetic excitation that scales in energy with the superconducting energy gap and is suppressed above the superconducting transition temperature, Tc. Such resonant excitations have been shown by inelastic neutron scattering to be a universal feature of the cuprate superconductors, and have even been observed in heavy fermion superconductors with much lower transition temperatures. In this paper, we show neutron scattering evidence of a resonant excitation in Ba0.6K0.4Fe2As2, which is a superconductor below 38K, at the momentum transfer associated with magnetic order in the undoped compound, BaFe2As2, and at an energy transfer that is consistent with scaling in other strongly correlated electron superconductors. As in the cuprates, the peak disappears at Tc providing the first experimental confirmation of a strong coupling of the magnetic fluctuation spectrum to the superconducting order parameter in the new iron arsenide superconductors., Comment: 5 pages, 4 figures

Published

2008

33. Inelastic neutron scattering studies of Crystal Field Levels in PrOs$_4$As$_{12}$

Author

Chi, Songxue, Dai, Pengcheng, Barnes, T., Kang, H. J., Lynn, J. W., Bewley, R., Ye, F., Maple, M. B., Henkie, Z., and Pietraszko, A.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We use neutron scattering to study the Pr$^{3+}$ crystalline electric field (CEF) excitations in the filled skutterudite PrOs$_4$As$_{12}$. By comparing the observed levels and their strengths under neutron excitation with the theoretical spectrum and neutron excitation intensities, we identify the Pr$^{3+}$ CEF levels, and show that the ground state is a magnetic $\Gamma_4^{(2)}$ triplet, and the excited states $\Gamma_1$, $\Gamma_4^{(1)}$ and $\Gamma_{23}$ are at 0.4, 13 and 23 meV, respectively. A comparison of the observed CEF levels in PrOs$_4$As$_{12}$ with the heavy fermion superconductor PrOs$_4$Sb$_{12}$ reveals the microscopic origin of the differences in the ground states of these two filled skutterudites., Comment: 7 pages, 7 figures

Published

2008

34. Influence of static Jahn-Teller distortion on the magnetic excitation spectrum of PrO2: A synchrotron x-ray and neutron inelastic scattering study

Author

Webster, C. H., Helme, L. M., Boothroyd, A. T., McMorrow, D. F., Wilkins, S. B., Detlefs, C., Detlefs, B., Bewley, R. I., and McKelvy, M. J.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

A synchrotron x-ray diffraction study of the crystallographic structure of PrO2 in the Jahn-Teller distorted phase is reported. The distortion of the oxygen sublattice, which was previously ambiguous, is shown to be a chiral structure in which neighbouring oxygen chains have opposite chiralities. A temperature dependent study of the magnetic excitation spectrum, probed by neutron inelastic scattering, is also reported. Changes in the energies and relative intensities of the crystal field transitions provide an insight into the interplay between the static and dynamic Jahn-Teller effects., Comment: 7 pages, 6 figures

Published

2007

35. One- and Two-Triplon Spectra of a Cuprate Ladder

Author

Notbohm, S., Ribeiro, P., Lake, B., Tennant, D. A., Schmidt, K. P., Uhrig, G. S., Hess, C., Klingeler, R., Behr, G., Buechner, B., Reehuis, M., Bewley, R. I., Frost, C. D., Manuel, P., and Eccleston, R. S.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We have performed inelastic neutron scattering on the near ideal spin-ladder compound La4Sr10Cu24O41, which will serve as a model system for the investigation of doped ladders. A key feature in the analysis was the separation of one-triplon and two-triplon scattering contributions due to an antiphase rung modulation. This enabled extraction of the one-triplon dispersion which has a spin gap of 26.4+/-0.3 meV, and for the first time two-triplon scattering is clearly observed. The exchange constants are determined by fitting the data to be Jleg=186 meV and Jrung=124 meV along the leg and the rung respectively. In addition to the surprisingly large difference between Jleg and Jrung a substantial ring exchange of Jcyc=31 meV was confirmed., Comment: 5 pages, 4 figures

Published

2006

36. Magnetic spectral response and lattice properties in mixed-valence Sm1-x Yx S solid solutions studied with x-ray diffraction, x-ray absorption spectroscopy, and inelastic neutron scattering

Author

Alekseev, P. A., Mignot, J. -M., Nefeodova, E. V., Nemkovski, K. S., Lazukov, V. N., Tiden, N. N., Menushenkov, A. P., Chernikov, R. V., Klementiev, K. V., Ochiai, A., Golubkov, A. V., Bewley, R. I., Rybina, A. V., and Sadikov, I. P.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Mixed-valence phenomena occurring in the "black" (B) and "gold" (G) phases of Sm1-x Yx S have been studied by x-ray diffraction, x-ray absorption spectroscopy, and inelastic neutron scattering. Lattice-constant and phonon-dispersion results confirm that the valence instability occurs already inside the B phase. On the other hand, pronounced temperature anomalies in the thermal expansion \alpha(T), as well as in the Sm mean-square displacements denote the onset of the B-G transition for the compositions x = 0.33 and 0.45. It is argued that these anomalies primarily denote an effect of electron-phonon coupling. The magnetic spectral response, measured on both powder and single crystals, is dominated by the Sm2+ spin-orbit component close to 36 meV. A strongly overdamped Sm3+ contribution appears only for x >= 0.33 near room-temperature. The quasielastic signal is strongly suppressed below 70 K, reflecting the formation of the singlet mixed-valence ground state. Quite remarkably, the signal around 36 meV is found, from the single-crystal spectra, to arise from two distinct, dispersive, interacting branches. The lower peak, confirmed to exist from x = 0.17 to x = 0.33 at least, is tentatively ascribed to an excitation specific to the mixed-valence regime, reminiscent of the "exciton" peak reported previously for SmB6 ., Comment: Submitted to Phys. Rev; B (14 pages, 13 figures, 2 tables)

Published

2006

37. The effect of externally applied pressure on the magnetic behavior of Cu2Te2O5(BrxCl{1-x})2

Author

Crowe, S. J., Lees, M. R., Paul, D. McK., Bewley, R. I., Taylor, J. W., McIntyre, G., Zaharko, O., and Berger, H.

Subjects

Condensed Matter - Materials Science

Abstract

The effect of externally applied pressure on the magnetic behavior of Cu2Te2O5(BrxCl{1-x})2 with x = 0, 0.73 and 1, is investigated by a combination of magnetic susceptibility, neutron diffraction and neutron inelastic scattering measurements. The magnetic transition temperatures of the x = 0 and 0.73 compositions are observed to increase linearly with increasing pressure at a rate of 0.23(2) K/kbar and 0.04(1) K/kbar respectively. However, the bromide shows contrasting behavior with a large suppression of the transition temperature under pressure, at a rate of -0.95(9) K/kbar. In neutron inelastic scattering measurements of Cu2Te2O5Br2 under pressure only a small change to the ambient pressure magnetic excitations were observed. A peak in the density of states was seen to shift from ~5 meV in ambient pressure to ~6 meV under an applied pressure of 11.3 kbar, which was associated with an increase in the overall magnetic coupling strength., Comment: 7 pages, 9 figures

Published

2006

38. 2D Ferromagnetism in the High-Tc Analogue Cs_2AgF_4

Author

McLain, S. E., Tennant, D. A., Turner, J. F. C., Barnes, T., Dolgos, M. R., Proffen, Th., Sales, B. C., and Bewley, R. I.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity

Abstract

Although the precise mechanism of high-Tc superconductivity in the layered cuprates remains unknown, it is generally thought that strong 2D Heisenberg antiferromagnetism combined with disruptive hole doping is an essential aspect of the phenomenon. Intensive studies of other layered 3d transition metal systems have greatly extended our understanding of strongly correlated electron states, but to date have failed to show strong 2D antiferromagnetism or high-Tc superconductivity. For this reason the largely unexplored 4d^9 Ag^II fluorides, which are structurally and perhaps magnetically similar to the 3d^9 Cu^II cuprates, merit close study. Here we present a comprehensive study of magnetism in the layered Ag^II fluoride Cs_2AgF_4, using magnetic susceptometry, neutron diffraction and inelastic neutron scattering techniques. We find that this material is well described as a 2D Heisenberg ferromagnet, in sharp contrast to the high-Tc cuprates. The exchange constant J is the largest known for any material of this type. We suggest that orbital ordering may be the origin of the ferromagnetism we observe in this material., Comment: 5 pages, 4 figures. Submitted to Nature Materials

Published

2005

39. Neutron inelastic scattering investigation of the magnetic excitations in Cu_2Te_2O_5X_2 (X=Br, Cl)

Author

Crowe, S. J., Majumdar, S., Lees, M. R., Paul, D. McK., Bewley, R. I., Levett, S. J., and Ritter, C.

Subjects

Condensed Matter - Other Condensed Matter

Abstract

Neutron inelastic scattering investigations have been performed on the spin tetrahedral system Cu_2Te_2O_5X_2 (X = Cl, Br). We report the observation of magnetic excitations with a dispersive component in both compounds, associated with the 3D incommensurate magnetic order that develops below $T^{Cl}_{N}$=18.2 K and $T^{Br}_{N}$=11.4 K. The excitation in Cu_2Te_2O_5Cl_2 softens as the temperature approaches $T^{Cl}_{N}$, leaving diffuse quasi-elastic scattering above the transition temperature. In the bromide, the excitations are present well above $T^{Br}_{N}$, which might be attributed to the presence of a degree of low dimensional correlations above $T^{Br}_{N}$ in this compound.

Published

2005

40. Yb-Yb correlations and crystal-field effects in the Kondo insulator YbB12 and its solid solutions

Author

Alekseev, P. A., Mignot, J. -M., Nemkovski, K. S., Nefeodova, E. V., Shitsevalova, N. Yu., Paderno, Yu. B., Bewley, R. I., Eccleston, R. S., Clementyev, E. S., Lazukov, V. N., Sadikov, I. P., and Tiden, N. N.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We have studied the effect of Lu substitution on the spin dynamics of the Kondo insulator YbB12 to clarify the origin of the spin-gap response previously observed at low temperature in this material. Inelastic neutron spectra have been measured in Yb1-xLuxB12 compounds for four Lu concentrations x = 0, 0.25, 0.90 and 1.0. The data indicate that the disruption of coherence on the Yb sublattice primarily affects the narrow peak structure occurring near 15-20 meV in pure YbB12, whereas the spin gap and the broad magnetic signal around 38 meV remain almost unaffected. It is inferred that the latter features reflect mainly local, single-site processes, and may be reminiscent of the inelastic magnetic response reported for mixed-valence intermetallic compounds. On the other hand, the lower component at 15 meV is most likely due to dynamic short-range magnetic correlations. The crystal-field splitting in YbB12 estimated from the Er3+ transitions measured in a Yb0.9Er0.1B12 sample, has the same order of magnitude as other relevant energy scales of the system and is thus likely to play a role in the form of the magnetic spectral response., Comment: 16 pages in pdf format, 9 figures. v. 2: coauthor list updated; extra details given in section 3.2 (pp. 6-7); one reference added; fig. 5 axis label changed

Published

2003

41. The magnetic state of Yb in Kondo-lattice YbNi2B2C

Author

Boothroyd, A. T., Barratt, J. P., Bonville, P., Canfield, P. C., Murani, A., Wildes, A. R., and Bewley, R. I.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We report neutron scattering experiments performed to investigate the dynamic magnetic properties of the Kondo-lattice compound YbNi2B2C. The spectrum of magnetic excitations is found to be broad, extending up to at least 150 meV, and contains inelastic peaks centred near 18 meV and 43 meV. At low energies we observe quasielastic scattering with a width Gamma = 2.1 meV. The results suggest a Yb3+ ground state with predominantly localized 4f electrons subject to (i) a crystalline electric field (CEF) potential, and (ii) a Kondo interaction, which at low temperatures is about an order of magnitude smaller than the CEF interaction. From an analysis of the dynamic magnetic response we conclude that the crystalline electric field acting on the Yb ions has a similar anisotropy to that in other RNi2B2C compounds, but is uniformly enhanced by almost a factor of 2. The static and dynamic magnetic properties of YbNi2B2C are found to be reconciled quite well by means of an approximation scheme to the Anderson impurity model, and this procedure also indicates that the effective Kondo interaction varies with temperature due to the crystal field splitting. We discuss the nature of the correlated-electron ground state of YbNi2B2C based on these and other experimental results, and suggest that this compound might be close to a quantum critical point on the non-magnetic side., Comment: Revised version to be published in Phys Rev B

Published

2002

42. Spin-Trimer Antiferromagnetism in La$_4$Cu$_3$MoO$_{12}$

Author

Qiu, Y., Broholm, C., Ishiwata, S., Azuma, M., Takano, M., Bewley, R., and Buyers, W. J. L.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

La$_4$Cu$_3$MoO$_{12}$ is a cluster antiferromagnet where copper spin-1/2 form a network of st rongly coupled spin-trimers. The magnetic properties of this material have bee n examined using magnetic neutron scattering. At low temperatures, excitations from the ground state are observed at 7.5(3) meV and 132.5(5) meV. An additio nal peak in the neutron scattering spectrum, which appears at 125.0(5) meV on heating is ascribed to a transition between excited states. The wave-vector an d temperature-dependence of the inelastic magnetic scattering cross section is consistent with intra-trimer transitions. Magnetic neutron diffraction reveal s antiferromagnetic order below T$_N$=2.6 K that doubles the unit cell along t he {\bf a} direction. The ordered magnetic structure is described as inter-tri mer order where spin correlations within trimers are controlled by the strong intra-trimer interactions. Combining the information derived from elastic and inelastic magnetic neutron scattering with group theoretical analysis, a consi stent set of intra-trimer interactions and ordered magnetic structures are der ived. The experiment provides a simple worked example of magnetism associated with inter-atomic composite degrees of freedom in the extreme quantum limit., Comment: submitted to PRB

Published

2002

43. Localized 4f States and Dynamic Jahn-Teller Effect in PrO2

Author

Boothroyd, A. T., Gardiner, C. H., Lister, S. J. S., Santini, P., Rainford, B. D., Noialles, L. D., Currie, D. B., Eccleston, R. S., and Bewley, R. I.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Neutron spectroscopic measurements of the magnetic excitations in PrO$_2$ reveal (1) sharp peaks characteristic of transitions between levels of the $4f^1$ configuration of Pr$^{4+}$ split by the cubic crystal field, and (2) broad bands of scattering centred near 30 meV and 160 meV. We present a simple model based on a vibronic Hamiltonian that accounts for the main features of the data. The analysis shows that $90\pm10$% of the Pr ions have a localized $4f^1$ configuration and provides strong evidence for a dynamic Jahn-Teller effect in the $\Gamma_8$ electronic ground state., Comment: To be published in Phys. Rev. Lett. 4 pages, 2 figs

Published

2001

44. A lost campaign? New evidence of Roman temporary camps in northern Arabia

Author

Fradley, M, Wilson, A, Finlayson, W, and Bewley, R

Subjects

Archeology, General Arts and Humanities

Abstract

Remote sensing survey in southern Jordan has identified at least three Roman temporary camps that indicate a probable undocumented military campaign into what is today Saudi Arabia, and which we conjecture is linked to the Roman annexation of the Nabataean kingdom in AD 106.

Published

2023

45. Jesus in dialogue : an aspect of Markan narrative Christology

Author

Bewley, R. J.

Subjects

230

Abstract

Dialogue is the main building block of Mark’s Gospel. Unlike Matthew with its extended blocks of teaching, unlike Luke with its multiple use and systematic arrangement of parables, and unlike John or even Thomas, where imbalanced dialogues afford Jesus the opportunity to make extended pronouncements, Mark’s Gospel does not give Jesus a platform for lengthy teaching and preaching. Although Jesus speaks the vast majority of spoken verses in the text, there are few long speeches, and most pronouncements take place within clearly defined dialogue contexts. The portrait of Jesus is built up by a series of encounters with supplicants, demons, opponents, disciples and the Father. As a text-centred approach, this thesis sits within the orbit of Narrative Criticism. Yet, in spite of the suitability of the discipline, dialogue studies in Mark have received little attention. This omission is rectified in this thesis by drawing on the tools of linguistic disciplines, principally speech-art theory and conversational analysis. The marriage of these allows us to take seriously the nature, shape and progression of the interactions, and to use them to uncover a portrait of Mark’s Jesus, which goes beyond simply what he is called (i.e. traditional Christological titles), what he says or what he does. The portrait is enriched by the form, as the dialogue encounters demonstrate a tension between authority and disempowerment, control and risk, confidence and uncertainty. Jesus’ agenda is controlled by supplicants who require action from him, by disciples who require enlightenment from him, by spirits who confront him, and by opponents who challenge him. Jesus is frequently put on the back foot in potentially difficult position, but, by the use of dialogue skill and personal authority, he emerges unscathed and victorious from the encounter. Nevertheless victory is not total as characters still have the freedom and volition to disobey him outside the confines of the dialogue. The dialogue form as presented by the implied author of Mark’s Gospel is an integral component of the presentation of Jesus as the servant who opens himself up to risk and challenge. It is as Jesus manoeuvres through these at times complex interactions that the implied author builds up the portrait of one who achieves victory through vulnerability. The implied reader encounters Jesus only as Jesus encounters others.

Published

2004

46. Competing spin-orbital singlet states in the 4d4 honeycomb ruthenate Ag3LiRu2O6

Author

Takayama, T., primary, Blankenhorn, M., additional, Bertinshaw, J., additional, Haskel, D., additional, Bogdanov, N. A., additional, Kitagawa, K., additional, Yaresko, A. N., additional, Krajewska, A., additional, Bette, S., additional, McNally, G., additional, Gibbs, A. S., additional, Matsumoto, Y., additional, Sari, D. P., additional, Watanabe, I., additional, Fabbris, G., additional, Bi, W., additional, Larkin, T. I., additional, Rabinovich, K. S., additional, Boris, A. V., additional, Ishii, H., additional, Yamaoka, H., additional, Irifune, T., additional, Bewley, R., additional, Ridley, C. J., additional, Bull, C. L., additional, Dinnebier, R., additional, Keimer, B., additional, and Takagi, H., additional

Published

2022

47. Magnetic Excitations in YbNi2B2C

Author

Boothroyd, A. T., Barratt, J. P., Lister, S. J. S., Wildes, A. R., Canfield, P. C., Bewley, R. I., Müller, Karl-Hartmut, editor, and Narozhnyi, Vladimir, editor

Published

2001

48. Topological magnon band structure of emergent Landau levels in a skyrmion lattice

Author

Weber, T., primary, Fobes, D. M., additional, Waizner, J., additional, Steffens, P., additional, Tucker, G. S., additional, Böhm, M., additional, Beddrich, L., additional, Franz, C., additional, Gabold, H., additional, Bewley, R., additional, Voneshen, D., additional, Skoulatos, M., additional, Georgii, R., additional, Ehlers, G., additional, Bauer, A., additional, Pfleiderer, C., additional, Böni, P., additional, Janoschek, M., additional, and Garst, M., additional

Published

2022

49. Magnetic correlations in the triangular antiferromagnet FeGa₂S₄

Author

Guratinder, K., Schmidt, Martin, Walker, Helen, Bewley, R. I., Wörle, Michael, Cabra, Daniel Carlos, Osorio, Santiago Antonio, Villalba, Martín Emilio, Madsen, A. K., Keller, Lukas, Wildes, Andrew, Puphal, Pascal, Cervellino, Antonio, Rüegg, C., and Zaharko, Oksana

Subjects

Susceptibility measurements, Magnetic interactions, Crystal structure, Física, Ciencias Exactas, Neutron diffraction, Inelastic neutron scattering, X-ray diffraction

Abstract

The crystal structure and magnetic correlations in triangular antiferromagnet FeGa₂S₄ are studied by x-ray diffraction, magnetic susceptibility, neutron diffraction, and neutron inelastic scattering. We report significant mixing at the cation sites and disentangle magnetic properties dominated by major and minor magnetic sites. The magnetic short-range correlations at 0.77 Å⁻¹ correspond to the major sites and being static at base temperature they evolve into dynamic correlations around 30–50 K. The minor sites contribute to the magnetic peak at 0.6 Å⁻¹, which vanishes at 5.5 K. Our analytical studies of triangular lattice models with bilinear and biquadratic terms provide the ratios between exchanges for the proposed ordering vectors. The modeling of the inelastic neutron spectrum within linear spin-wave theory results in the set of exchange couplings J₁ = 1.7, J₂ = 0.9, J₃ = 0.8 meV for the bilinear Heisenberg Hamiltonian. However, not all features of the excitation spectrum are explained with this model., Instituto de Física de Líquidos y Sistemas Biológicos

Published

2021

50. Effects of Heavy Metal Pollution on the Microflora of Pine Needles

Author

Bewley, R. J. F.

Published

1981