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1. Spin-orbital excitations encoding the magnetic phase transition in the van der Waals antiferromagnet FePS$_{3}$

Author

Wei, Yuan, Tseng, Yi, Elnaggar, Hebatalla, Zhang, Wenliang, Asmara, Teguh Citra, Paris, Eugenio, Domaine, Gabriele, Strocov, Vladimir N., Testa, Luc, Favre, Virgile, Di Luca, Mario, Banerjee, Mitali, Wildes, Andrew R., de Groot, Frank M. F., Ronnow, Henrik M., and Schmitt, Thorsten

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

In the rich phases of van der Waals (vdW) materials featuring intertwined electronic order and collective phenomena, characterizing elementary dynamics that entail the low-energy Hamiltonian and electronic degrees of freedom is of paramount importance. Here we performed resonant inelastic X-ray scattering (RIXS) to elaborate the spin-orbital ground and excited states of the vdW antiferromagnetic insulator FePS$_{3}$, as well as their relation to magnetism. We observed the spectral enhancement of spin-orbital multiplet transitions about $\sim$ 100 and $\sim$ 220 meV, as well as quasielastic response, when entering the zig-zag antiferromagnetic phase, where the spectral changes develop an order-parameter-like evolution with temperature. By comparing with ligand field theory calculations, we discovered the essential role of trigonal lattice distortion and negative metal-ligand charge-transfer to account for these emergent excitations. Such spectral profiles are further examined upon confinement by mechanical exfoliation. We reveal their spectral robustness down to the few atomic layer limit, in accordance with the persistent antiferromagnetic state previously reported in optical measurements. Our study demonstrates the versatile RIXS capability that resolves magneto-crystalline anisotropy and charge-transfer energetics. These provide the crucial insight to understand how the spontaneous magnetic symmetry-breaking stabilizes in the quasi-two-dimensional limit for the vdW magnet FePS$_{3}$.

Published
2024

2. Revisiting spin ice physics in the ferromagnetic Ising pyrochlore Pr$_2$Sn$_2$O$_7$

Author

Ortiz, Brenden R., Sarte, Paul M., Pokharel, Ganesh, Knudston, Miles J., Alvarado, Steven J. Gomez, May, Andrew F., Calder, Stuart, Mangin-Thro, Lucile, Wildes, Andrew R., Zhou, Haidong, Sala, Gabriele, Wiebe, Chris R., Wilson, Stephen D., Paddison, Joseph A. M., and Aczel, Adam A.

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

Pyrochlore materials are characterized by their hallmark network of corner-sharing rare-earth tetrahedra, which can produce a wide array of complex magnetic ground states. Ferromagnetic Ising pyrochlores often obey the "two-in-two-out" spin ice rules, which can lead to a highly-degenerate spin structure. Large moment systems, such as Ho$_2$Ti$_2$O$_7$ and Dy$_2$Ti$_2$O$_7$, tend to host a classical spin ice state with low-temperature spin freezing and emergent magnetic monopoles. Systems with smaller effective moments, such as Pr$^{3+}$-based pyrochlores, have been proposed as excellent candidates for hosting a "quantum spin ice" characterized by entanglement and a slew of exotic quasiparticle excitations. However, experimental evidence for a quantum spin ice state has remained elusive. Here, we show that the low-temperature magnetic properties of Pr$_2$Sn$_2$O$_7$ satisfy several important criteria for continued consideration as a quantum spin ice. We find that Pr$_2$Sn$_2$O$_7$ exhibits a partially spin-frozen ground state with a large volume fraction of dynamic magnetism. Our comprehensive bulk characterization and neutron scattering measurements enable us to map out the magnetic field-temperature phase diagram, producing results consistent with expectations for a ferromagnetic Ising pyrochlore. We identify key hallmarks of spin ice physics, and show that the application of small magnetic fields ($\mu_0 H_c \sim$0.75T) suppresses the spin ice state and induces a long-range ordered magnetic structure. Together, our work clarifies the current state of Pr$_2$Sn$_2$O$_7$ and encourages future studies aimed at exploring the potential for a quantum spin ice ground state in this system.

Published
2023
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3. Comparative structural evolution under pressure of powder and single crystals of the layered antiferromagnet FePS$_3$

Author

Jarvis, David M., Coak, Matthew J., Hamidov, Hayrullo, Haines, Charles R. S., Lampronti, Giulio I., Liu, Cheng, Deng, Shiyu, Daisenberger, Dominik, Allan, David R., Warren, Mark R., Wildes, Andrew R., and Saxena, Siddharth S.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The layered antiferromagnet FePS$_3$ has been shown to undergo a structural transition under pressure linked to an insulator-metal transition, with two incompatible models previously proposed for the highest-pressure structure. We present a study of the high-pressure crystal structures of FePS$_3$ using both single-crystal and powder x-ray diffraction. We show that the highest pressure transition involves a collapse of the inter-planar spacing of this material, along with an increase in symmetry from a monoclinic to a trigonal structure, to the exclusion of other models. The extent of this volume collapse is shown to be sensitive to the presence of a helium pressure medium in the sample environment, indicating that consideration of such experimental factors is important for understanding high-pressure behaviours in this material., Comment: 5 pages, 3 figures

Published
2022
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4. Evolution of magnetic order in van-der-Waals antiferromagnet FePS$_3$ through insulator-metal transition

Author

Coak, Matthew J., Jarvis, David M, Hamidov, Hayrullo, Wildes, Andrew R., Paddison, Joseph A. M., Liu, Cheng, Haines, Charles R. S., Dang, Ngoc T., Kichanov, Sergey E., Savenko, Boris N., Lee, Sungmin, Kratochvílová, Marie, Klotz, Stefan, Hansen, Thomas, Kozlenko, Denis P., Park, Je-Geun, and Saxena, Siddharth S.

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

Layered van-der-Waals 2D magnetic materials are of great interest in fundamental condensed-matter physics research, as well as for potential applications in spintronics and device physics. We present neutron powder diffraction data using new ultra-high-pressure techniques to measure the magnetic structure of Mott-insulating 2D honeycomb antiferromagnet FePS$_3$ at pressures up to 183 kbar and temperatures down to 80 K. These data are complemented by high-pressure magnetometry and reverse Monte Carlo modeling of the spin configurations. As pressure is applied, the previously-measured ambient-pressure magnetic order switches from an antiferromagnetic to a ferromagnetic interplanar interaction, and from 2D-like to 3D-like character. The overall antiferromagnetic structure within the $ab$ planes, ferromagnetic chains antiferromagnetically coupled, is preserved, but the magnetic propagation vector is altered from $(0\:1\:\frac{1}{2})$ to $(0\:1\:0)$, a halving of the magnetic unit cell size. At higher pressures, coincident with the second structural transition and the insulator-metal transition in this compound, we observe a suppression of this long-range-order and emergence of a form of magnetic short-range order which survives above room temperature. Reverse Monte Carlo fitting suggests this phase to be a short-ranged version of the original ambient pressure structure - with a return to antiferromagnetic interplanar correlations. The persistence of magnetism well into the HP-II metallic state is an observation in seeming contradiction with previous x-ray spectroscopy results which suggest a spin-crossover transition., Comment: Manuscript currently under review in Phys Rev X

Published
2020
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5. Real-space investigation of short-range magnetic correlations in fluoride pyrochlores NaCaCo$_2$F$_7$ and NaSrCo$_2$F$_7$ with magnetic pair distribution function analysis

Author

Frandsen, Benjamin A., Ross, Kate A., Krizan, Jason W., Nilsen, Gøran J., Wildes, Andrew R., Cava, Robert J., Birgeneau, Robert J., and Billinge, Simon J. L.

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

We present time-of-flight neutron total scattering and polarized neutron scattering measurements of the magnetically frustrated compounds NaCaCo$_2$F$_7$ and NaSrCo$_2$F$_7$, which belong to a class of recently discovered pyrochlore compounds based on transition metals and fluorine. The magnetic pair distribution function (mPDF) technique is used to analyze and model the total scattering data in real space. We find that a previously-proposed model of short-range XY-like correlations with a length scale of 10-15 \AA, combined with nearest-neighbor collinear antiferromagnetic correlations, accurately describes the mPDF data at low temperature, confirming the magnetic ground state in these materials. This model is further verified by the polarized neutron scattering data. From an analysis of the temperature dependence of the mPDF and polarized neutron scattering data, we find that short-range correlations persist on the nearest-neighbor length scale up to 200 K, approximately two orders of magnitude higher than the spin freezing temperatures of these compounds. These results highlight the opportunity presented by these new pyrochlore compounds to study the effects of geometric frustration at relatively high temperatures, while also advancing the mPDF technique and providing a novel opportunity to investigate a genuinely short-range-ordered magnetic ground state directly in real space.

Published
2017
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6. The low-temperature highly correlated quantum phase in the charge-density-wave 1T-TaS_2 compound

Author

Kratochvilova, Marie, Hillier, Adrian D., Wildes, Andrew R., Wang, Lihai, Cheong, Sang-Wook, and Park, Je-Geun

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

A prototypical quasi-2D metallic compound, 1T-TaS_2 has been extensively studied due to an intricate interplay between a Mott-insulating ground state and a charge density-wave (CDW) order. In the low-temperature phase, 12 out of 13 Ta_{4+} 5\textit{d}-electrons form molecular orbitals in hexagonal star-of-David patterns, leaving one 5\textit{d}-electron with \textit{S} = 1/2 spin free. This orphan quantum spin with a large spin-orbit interaction is expected to form a highly correlated phase of its own. And it is most likely that they will form some kind of a short-range order out of a strongly spin-orbit coupled Hilbert space. In order to investigate the low-temperature magnetic properties, we performed a series of measurements including neutron scattering and muon experiments. The obtained data clearly indicate the presence of the short-ranged phase and put the upper bound on ~ 0.4 \textit{\mu}_B for the size of the magnetic moment, consistent with the orphan-spin scenario., Comment: 11 pages, 4 figures + supplemental material. Accepted by npj Quantum Materials

Published
2017
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7. Strong exchange anisotropy in YbMgGaO$_4$ from polarized neutron diffraction

Author

Tóth, Sándor, Rolfs, Katharina, Wildes, Andrew R., and Rüegg, Christian

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We measured the magnetic correlations in the triangular lattice spin-liquid candidate material YbMgGaO$_4$ via polarized neutron diffraction. The extracted in-plane and out-of-plane components of the magnetic structure factor show clear anisotropy. We found that short-range correlations persist at the lowest measured temperature of 52 mK and neutron scattering intensity is centered at the $M$ middle-point of the hexagonal Brillouin-zone edge. Moreover, we found pronounced spin anisotropy, with different correlation lengths for the in-plane and out-of-plane spin components. When comparing to a self-consistent Gaussian appoximation, our data clearly support a model with only first-neighbor coupling and strongly anisotropic exchanges., Comment: 5 pages, 3 figures

Published
2017

8. Field Induced Magnetic States in Holmium Tetraboride

Author

Brunt, Daniel, Balakrishnan, Geetha, Wildes, Andrew R., Ouladdiaf, Bachir, Qureshi, Navid, and Petrenko, Oleg A.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

A study of the zero field and field induced magnetic states of the frustrated rare earth tetraboride, HoB$_4$, has been carried out using single crystal neutron diffraction complemented by magnetisation measurements. In zero field, HoB$_4$ shows magnetic phase transitions at $T_{\mathrm{N1}}$ = 7.1 K to an incommensurate state with a propagation vector ($\delta$, $\delta$, $\delta'$), where $\delta$ = 0.02 and $\delta'$ = 0.43 and at $T_{\mathrm{N2}}$ = 5.7 K to a non-collinear commensurate antiferromagnetic structure. Polarised neutron diffraction measurements in zero field have revealed that the incommensurate reflections, albeit much reduced in intensity, persist down to 1.5 K despite antiferromagnetic ordering at 5.7 K. At lower temperatures, application of a magnetic field along the $c$-axis initially re-establishes the incommensurate phase as the dominant magnetic state in a narrow field range, just prior to HoB$_4$ ordering with an up-up-down ferrimagnetic structure characterised by the $(h,k,\frac{1}{3})$-type reflections between 18 and 24 kOe. This field range is marked by the previously reported $M/M_{\mathrm{sat}}$= $\frac{1}{3}$ magnetisation plateau, which we also see in our magnetisation measurements. The region between 21 and 33 kOe is characterised by the increase in the intensity of the antiferromagnetic reflections, such as (100), the maximum of which coincides with the appearance of the narrow magnetisation plateau with $M/M_{\mathrm{sat}}\approx$ $\frac{3}{5}$. Further increase of the magnetic field results in the stabilisation of a polarised state above 33 kOe, while the incommensurate reflections are clearly present in all fields up to 59 kOe. We propose the $H-T$ phase diagram of HoB$_4$ for the $H \parallel c$ containing both stationary and transitionary magnetic phases which overlap and show significant history dependence., Comment: 9 pages, 10 figures, Accepted Physical Review B

Published
2016
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9. Real-space investigation of short-range magnetic correlations in fluoride pyrochlores NaCaCo2F7 and NaSrCo2F7 with magnetic pair distribution function analysis

Author

Frandsen, Benjamin A, Ross, Kate A, Krizan, Jason W, Nilsen, Gøran J, Wildes, Andrew R, Cava, Robert J, Birgeneau, Robert J, and Billinge, Simon JL

Subjects
Inorganic Chemistry, Chemical Sciences, Physical Sciences, cond-mat.str-el, cond-mat.mtrl-sci, Macromolecular and materials chemistry, Materials engineering, Condensed matter physics
Abstract

We present time-of-flight neutron total scattering and polarized neutron scattering measurements of the magnetically frustrated compounds NaCaCo2F7 and NaSrCo2F7, which belong to a class of recently discovered pyrochlore compounds based on transition metals and fluorine. The magnetic pair distribution function (mPDF) technique is used to analyze and model the total scattering data in real space. We find that a previously proposed model of short-range XY-like correlations with a length scale of 10-15 Å, combined with nearest-neighbor collinear antiferromagnetic correlations, accurately describes the mPDF data at low temperature, confirming the magnetic ground state in these materials. This model is further verified by the polarized neutron scattering data. From an analysis of the temperature dependence of the mPDF and polarized neutron scattering data, we find that short-range correlations persist on the nearest-neighbor length scale up to 200 K, approximately two orders of magnitude higher than the spin freezing temperatures of these compounds. These results highlight the opportunity presented by these new pyrochlore compounds to study the effects of geometric frustration at relatively high temperatures, while also advancing the mPDF technique and providing an opportunity to investigate a genuinely short-range-ordered magnetic ground state directly in real space.

Published
2017

10. Revisiting spin ice physics in the ferromagnetic Ising pyrochlore Pr2Sn2O7

Author

Ortiz, Brenden R., primary, Sarte, Paul M., additional, Pokharel, Ganesh, additional, Knudtson, Miles J., additional, Gomez Alvarado, Steven J., additional, May, Andrew F., additional, Calder, Stuart, additional, Mangin-Thro, Lucile, additional, Wildes, Andrew R., additional, Zhou, Haidong, additional, Sala, Gabriele, additional, Wiebe, Chris R., additional, Wilson, Stephen D., additional, Paddison, Joseph A. M., additional, and Aczel, Adam A., additional

Published
2024
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11. Spin Correlations in the Dipolar Pyrochlore Antiferromagnet Gd2Sn2O7

Author

Paddison, Joseph A. M., Ehlers, Georg, Petrenko, Oleg A., Wildes, Andrew R., Gardner, Jason S., and Stewart, J. Ross

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Materials Science
Abstract

We investigate spin correlations in the dipolar Heisenberg antiferromagnet Gd2Sn2O7 using polarised neutron-scattering measurements in the correlated paramagnetic regime. Using Monte Carlo methods, we show that our data are sensitive to weak further-neighbour exchange interactions of magnitude ~0.5% of the nearest-neighbour interaction, and are compatible with either antiferromagnetic next-nearest neighbour interactions, or ferromagnetic third-neighbour interactions that connect spins across hexagonal loops. Calculations of the magnetic scattering intensity reveal rods of diffuse scattering along [111] reciprocal-space directions, which we explain in terms of strong antiferromagnetic correlations parallel to the set of <110> directions that connect a given spin with its nearest neighbours. Finally, we demonstrate that the spin correlations in Gd2Sn2O7 are highly anisotropic, and correlations parallel to third-neighbour separations are particularly sensitive to critical fluctuations associated with incipient long-range order., Comment: 14 pages, 5 figures

Published
2016
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12. The elevated Curie temperature and half-metallicity in the ferromagnetic semiconductor La$_{x}$Eu$_{1-x}$O

Author

Monteiro, Pedro M. S., Baker, Peter J., Hine, Nicholas D. M., Steinke, Nina-J., Ionescu, Adrian, Cooper, Joshaniel F. K., Barnes, Crispin H. W., Kinane, Christian J., Salman, Zaher, Wildes, Andrew R., Prokscha, Thomas, and Langridge, Sean

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Here we study the effect of La doping in EuO thin films using SQUID magnetometry, muon spin rotation ($\mu$SR), polarized neutron reflectivity (PNR), and density functional theory (DFT). The $\mu$SR data shows that the La$_{0.15}$Eu$_{0.85}$O is homogeneously magnetically ordered up to its elevated $T_{\rm C}$. It is concluded that bound magnetic polaron behavior does not explain the increase in $T_{\rm C}$ and an RKKY-like interaction is consistent with the $\mu$SR data. The estimation of the magnetic moment by DFT simulations concurs with the results obtained by PNR, showing a reduction of the magnetic moment per La$_{x}$Eu$_{1-x}$O for increasing lanthanum doping. This reduction of the magnetic moment is explained by the reduction of the number of Eu-4$f$ electrons present in all the magnetic interactions in EuO films. Finally, we show that an upwards shift of the Fermi energy with La or Gd doping gives rise to half-metallicity for doping levels as high as 3.2 %., Comment: 7 pages, 11 figures

Published
2015
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14. Comparative structural evolution under pressure of powder and single crystals of the layered antiferromagnet FePS3

Author

Jarvis, David M., primary, Coak, Matthew J., additional, Hamidov, Hayrullo, additional, Haines, Charles R. S., additional, Lampronti, Giulio I., additional, Liu, Cheng, additional, Deng, Shiyu, additional, Daisenberger, Dominik, additional, Allan, David R., additional, Warren, Mark R., additional, Wildes, Andrew R., additional, and Saxena, Siddharth S., additional

Published
2023
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17. Isostructural Mott transition in 2D honeycomb antiferromagnet V 0.9 PS 3

Author

Coak, Matthew J., Son, Suhan, Daisenberger, Dominik, Hamidov, Hayrullo, Haines, Charles R. S., Alireza, Patricia L., Wildes, Andrew R., Liu, Cheng, Saxena, Siddharth S., Park, Je-Geun, Coak, Matthew J. [0000-0002-1015-8683], Alireza, Patricia L. [0000-0002-8776-9423], Saxena, Siddharth S. [0000-0002-6321-5629], Park, Je-Geun [0000-0002-3930-4226], and Apollo - University of Cambridge Repository

Subjects
639/766/119/995, article, Condensed Matter::Strongly Correlated Electrons, 639/766/119/997
Abstract

The MPX3 family of magnetic van-der-Waals materials (M denotes a first row transition metal and X either S or Se) are currently the subject of broad and intense attention for low-dimensional magnetism and transport and also for novel device and technological applications, but the vanadium compounds have until this point not been studied beyond their basic properties. We present the observation of an isostructural Mott insulator–metal transition in van-der-Waals honeycomb antiferromagnet V0.9PS3 through high-pressure x-ray diffraction and transport measurements. We observe insulating variable-range-hopping type resistivity in V0.9PS3, with a gradual increase in effective dimensionality with increasing pressure, followed by a transition to a metallic resistivity temperature dependence between 112 and 124 kbar. The metallic state additionally shows a low-temperature upturn we tentatively attribute to the Kondo effect. A gradual structural distortion is seen between 26 and 80 kbar, but no structural change at higher pressures corresponding to the insulator–metal transition. We conclude that the insulator–metal transition occurs in the absence of any distortions to the lattice—an isostructural Mott transition in a new class of two-dimensional material, and in strong contrast to the behavior of the other MPX3 compounds.

Published
2020
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19. Emergent Magnetic Phases in Pressure-Tuned van der Waals Antiferromagnet FePS3

Author

Coak, Matthew J., primary, Jarvis, David M., additional, Hamidov, Hayrullo, additional, Wildes, Andrew R., additional, Paddison, Joseph A. M., additional, Liu, Cheng, additional, Haines, Charles R. S., additional, Dang, Ngoc T., additional, Kichanov, Sergey E., additional, Savenko, Boris N., additional, Lee, Sungmin, additional, Kratochvílová, Marie, additional, Klotz, Stefan, additional, Hansen, Thomas C., additional, Kozlenko, Denis P., additional, Park, Je-Geun, additional, and Saxena, Siddharth S., additional

Published
2021
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23. Atomically Layered and Ordered Rare-Earth i-MAX Phases : A New Class of Magnetic Quaternary Compounds

Author

Tao, Quanzheng, Lu, Jun, Dahlqvist, Martin, Mockute, Aurelija, Calder, Stuart, Petruhins, Andrejs, Meshkian, Rahele, Rivin, Oleg, Potashnikov, Daniel, Caspi, El'ad N., Shaked, Hagai, Hoser, Andreas, Opagiste, Christine, Galera, Rose-Marie, Salikhov, Ruslan, Wiedwald, Ulf, Ritter, Clemens, Wildes, Andrew R., Johansson, Börje, Hultman, Lars, Fade, Michael, Barsoum, Michel W., Rosen, Johanna, Tao, Quanzheng, Lu, Jun, Dahlqvist, Martin, Mockute, Aurelija, Calder, Stuart, Petruhins, Andrejs, Meshkian, Rahele, Rivin, Oleg, Potashnikov, Daniel, Caspi, El'ad N., Shaked, Hagai, Hoser, Andreas, Opagiste, Christine, Galera, Rose-Marie, Salikhov, Ruslan, Wiedwald, Ulf, Ritter, Clemens, Wildes, Andrew R., Johansson, Börje, Hultman, Lars, Fade, Michael, Barsoum, Michel W., and Rosen, Johanna

Abstract

In 2017, we discovered quaternary i-MAX phases atomically layered solids, where M is an early transition metal, A is an A group element, and X is C—with a (M12/3M21/3)2AC chemistry, where the M1 and M2 atoms are in-plane ordered. Herein, we report the discovery of a class of magnetic i-MAX phases in which bilayers of a quasi-2D magnetic frustrated triangular lattice overlay a Mo honeycomb arrangement and an Al Kagome lattice. The chemistry of this family is (Mo2/3RE1/3)2AlC, and the rare-earth, RE, elements are Ce, Pr, Nd, Sm, Gd, Tb, Dy, Ho, Er, Tm, and Lu. The magnetic properties were characterized and found to display a plethora of ground states, resulting from an interplay of competing magnetic interactions in the presence of magnetocrystalline anisotropy.

Published
2019
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24. Morphological and Structural Properties of Amorphous Lactulose Studied by Scanning Electron Microscopy, Polarized Neutron Scattering, and Molecular Dynamics Simulations

Author

Ngono, Frederic, primary, Cuello, Gabriel J., additional, Jiménez-Ruiz, Monica, additional, Willart, Jean-Francois, additional, Guerain, Mathieu, additional, Wildes, Andrew R., additional, Stunault, Anne, additional, Hamoudi-Ben Yelles, Cherifa-Mounira, additional, and Affouard, Frederic, additional

Published
2019
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25. Atomically Layered and Ordered Rare-Earth i-MAX Phases: A New Class of Magnetic Quaternary Compounds

Author

Tao, Quanzheng, primary, Lu, Jun, additional, Dahlqvist, Martin, additional, Mockute, Aurelija, additional, Calder, Stuart, additional, Petruhins, Andrejs, additional, Meshkian, Rahele, additional, Rivin, Oleg, additional, Potashnikov, Daniel, additional, Caspi, El’ad N., additional, Shaked, Hagai, additional, Hoser, Andreas, additional, Opagiste, Christine, additional, Galera, Rose-Marie, additional, Salikhov, Ruslan, additional, Wiedwald, Ulf, additional, Ritter, Clemens, additional, Wildes, Andrew R., additional, Johansson, Börje, additional, Hultman, Lars, additional, Farle, Michael, additional, Barsoum, Michel W., additional, and Rosen, Johanna, additional

Published
2019
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27. Strong exchange anisotropy in YbMgGaO$_4$ from polarized neutron diffraction

Author

T��th, S��ndor, Rolfs, Katharina, Wildes, Andrew R., and R��egg, Christian

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

We measured the magnetic correlations in the triangular lattice spin-liquid candidate material YbMgGaO$_4$ via polarized neutron diffraction. The extracted in-plane and out-of-plane components of the magnetic structure factor show clear anisotropy. We found that short-range correlations persist at the lowest measured temperature of 52 mK and neutron scattering intensity is centered at the $M$ middle-point of the hexagonal Brillouin-zone edge. Moreover, we found pronounced spin anisotropy, with different correlation lengths for the in-plane and out-of-plane spin components. When comparing to a self-consistent Gaussian appoximation, our data clearly support a model with only first-neighbor coupling and strongly anisotropic exchanges., 5 pages, 3 figures

Published
2017

31. Sample Dependence of Magnetism in the Next-Generation Cathode Material LiNi0.8Mn0.1Co0.1O2

Author

Mukherjee, Paromita, Paddison, Joseph A. M., Xu, Chao, Ruff, Zachary, Wildes, Andrew R., Keen, David A., Smith, Ronald I., Grey, Clare P., and Dutton, Siân E.

Abstract

We present a structural and magnetic study of two batches of polycrystalline LiNi0.8Mn0.1Co0.1O2(commonly known as Li NMC 811), a Ni-rich Li ion battery cathode material, using elemental analysis, X-ray and neutron diffraction, magnetometry, and polarized neutron scattering measurements. We find that the samples, labeled S1 and S2, have the composition Li1–xNi0.9+x–yMnyCo0.1O2, with x= 0.025(2), y= 0.120(2) for S1 and x= 0.002(2), y= 0.094(2) for S2, corresponding to different concentrations of magnetic ions and excess Ni2+in the Li+layers. Both samples show a peak in the zero-field-cooled (ZFC) dc susceptibility at 8.0(2) K, but the temperature at which the ZFC and FC (field-cooled) curves deviate is substantially different: 64(2) K for S1 and 122(2) K for S2. The ac susceptibility measurements show that the transition for S1 shifts with frequency whereas no such shift is observed for S2 within the resolution of our measurements. Our results demonstrate the sample dependence of magnetic properties in Li NMC 811, consistent with previous reports on the parent material LiNiO2. We further establish that a combination of experimental techniques is necessary to accurately determine the chemical composition of next-generation battery materials with multiple cations.

Published
2021
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35. Elevated curie temperature and half-metallicity in the ferromagnetic semiconductor LaxEu1−xO

Author

Monteiro, Pedro M. S., Baker, Peter J. (Peter James), Hine, Nicholas, Steinke, Nina-J., Ionescu, Adrian M., Cooper, Joshaniel F. K., Barnes, Crispin H. W., Kinane, Christian J., Salman, Zaher, Wildes, Andrew R., Prokscha, Thomas, and Langridge, Sean

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

Here we study the effect of La doping in EuO thin films using SQUID magnetometry, muon spin rotation (µSR), polarized neutron reflectivity (PNR), and density functional theory (DFT). The µSR data shows that the La0.15Eu0.85O is homogeneously magnetically ordered up to its elevated TC. It is concluded that bound magnetic polaron behavior does not explain the increase in TC and an RKKY-like interaction is consistent with the µSR data. The estimation of the magnetic moment by DFT simulations concurs with the results obtained by PNR, showing a reduction of the magnetic moment per LaxEu1−xO for increasing lanthanum doping. This reduction of the magnetic moment is explained by the reduction of the number of Eu-4f electrons present in all the magnetic interactions in EuO films. Finally, we show that an upwards shift of the Fermi energy with La or Gd doping gives rise to half metallicity for doping levels as high as 3.2%.

Published
2015

41. Field-Induced Transitions in Highly Frustrated SrHo2O4.

Author

Young, Olga, Balakrishnan, Geetha, Manuel, Pascal, Khalyavin, Dmitry D., Wildes, Andrew R., and Petrenko, Oleg A.

Subjects
MAGNETIC transitions, NEUTRON diffraction, MAGNETIC fields, LOW temperatures, MAGNETS
Abstract

SrHo 2 O 4 is a geometrically frustrated magnet in which the magnetic Ho 3 + ions are connected through a network of zigzag chains and coupled by several competing interactions. The Ho 3 + ions show a pronounced Ising anisotropy at low temperatures, and the spins on the two crystallographically inequivalent magnetic sites point along orthogonal crystallographic axes. Using single-crystal neutron diffraction, we report on the development of complex and highly anisotropic short- and long-range magnetic order in SrHo 2 O 4 induced by an applied magnetic field. For H ‖ c , the diffuse scattering around the k = 0 positions is suppressed and above 0.5 T the spin structure for one of the Ho sites is long-range and ferromagnetic. For H ‖ b , planes of diffuse scattering at Q = (h k ± l 2) are split by the field, and an up–up–down magnetic order associated with a 1/3-magnetisation plateau develops at 0.8 T. Further increasing the field above 1.2 T allows the second Ho site to also order in a long-range ferromagnetic structure. [ABSTRACT FROM AUTHOR]

Published
2019
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42. Isostructural Mott transition in 2D honeycomb antiferromagnet V0.9PS3.

Author

Coak, Matthew J., Son, Suhan, Daisenberger, Dominik, Hamidov, Hayrullo, Haines, Charles R. S., Alireza, Patricia L., Wildes, Andrew R., Liu, Cheng, Saxena, Siddharth S., and Park, Je-Geun

Subjects
ANTIFERROMAGNETISM, MAGNETISM, X-ray diffraction, METALS, VANADIUM
Abstract

The MPX3 family of magnetic van-der-Waals materials (M denotes a first row transition metal and X either S or Se) are currently the subject of broad and intense attention for low-dimensional magnetism and transport and also for novel device and technological applications, but the vanadium compounds have until this point not been studied beyond their basic properties. We present the observation of an isostructural Mott insulator–metal transition in van-der-Waals honeycomb antiferromagnet V0.9PS3 through high-pressure x-ray diffraction and transport measurements. We observe insulating variable-range-hopping type resistivity in V0.9PS3, with a gradual increase in effective dimensionality with increasing pressure, followed by a transition to a metallic resistivity temperature dependence between 112 and 124 kbar. The metallic state additionally shows a low-temperature upturn we tentatively attribute to the Kondo effect. A gradual structural distortion is seen between 26 and 80 kbar, but no structural change at higher pressures corresponding to the insulator–metal transition. We conclude that the insulator–metal transition occurs in the absence of any distortions to the lattice—an isostructural Mott transition in a new class of two-dimensional material, and in strong contrast to the behavior of the other MPX3 compounds. [ABSTRACT FROM AUTHOR]

Published
2019
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43. Elevated Curie temperature and half-metallicity in the ferromagnetic semiconductor LaxEu1-xO.

Author

Monteiro, Pedro M. S., Baker, Peter J., Hine, Nicholas D. M., Steinke, Nina-J., Ionescu, Adrian, Cooper, Joshaniel F. K., Barnes, Crispin H. W., Kinane, Christian J., Salman, Zaher, Wildes, Andrew R., Prokscha, Thomas, and Langridge, Sean

Subjects
*LANTHANUM compounds, *MAGNETIC semiconductors, *CURIE temperature, *FERROMAGNETIC materials, *EUROPIUM compounds, *METALLIC thin films
Abstract

Here we study the effect of La-doping in EuO thin films using superconducting quantum interference device magnetometry, muon spin rotation (µSR), polarized neutron reflectivity (PNR), and density functional theory (DFT). The µSR data shows that the La0.15Eu0.85O is homogeneously magnetically ordered up to its elevated TC. It is concluded that bound magnetic polaron behavior does not explain the increase in TC and an Ruderman-Kittel-Kasuya-Yosida-like (RKKY-like) interaction is consistent with the µSR data. The estimation of the magnetic moment by DFT simulations concurs with the results obtained by PNR, showing a reduction of the magnetic moment per LaxEu1-xO for increasing lanthanum doping. This reduction of the magnetic moment is explained by the reduction of the number of Eu-4f electrons present in all the magnetic interactions in EuO films. Finally, we show that an upwards shift of the Fermi energy with La or Gd doping gives rise to half-metallicity for doping levels as high as 3.2%. [ABSTRACT FROM AUTHOR]

Published
2015
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