Your search keyword '"Cruz, Clarina dela"' showing total 32 results

1. Observation of unprecedented fractional magnetization plateaus in a new Shastry-Sutherland Ising compound

Author

Yadav, Lalit, Rufino, Afonso, Bag, Rabindranath, Cruz, Clarina dela, Kolesnikov, Alexander I., Garlea, V. Ovidiu, Graf, David, Mila, Frederic, and Haravifard, Sara

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Geometrically frustrated magnetic systems, such as those based on the Shastry-Sutherland lattice, offer a rich playground for exploring unconventional magnetic states. The delicate balance between competing interactions in these systems leads to the emergence of novel phases. We present the characterization of Er2Be2GeO7, an SSL compound with Er3+ ions forming orthogonal dimers separated by non-magnetic layers. Neutron scattering reveals an antiferromagnetic dimer structure at zero field, typical of Ising spins on that lattice and consistent with the anisotropic magnetization observed. However, magnetization measurements exhibit fractional plateaus at 1/4 and 1/2 of saturation, by contrast to the expected 1/3 plateau of the SSL Ising model. We show that this behaviour requires spatially anisotropic interactions, and, using a tensor network approach, we show that all properties, including thermodynamics, can be quantitatively explained by an Anisotropic Shastry-Sutherland Ising Model whose microscopic origin can be traced back to Dzyaloshinskii-Moriya interactions. This study highlights Er2Be2GeO7 as a promising platform for investigating exotic magnetic phenomena and potential applications in spintronics.

Published

2024

2. Tailoring Physical Properties of Crystals through Synthetic Temperature Control: A Case Study for new Polymorphic NbFeTe2 phases

Author

Wu, Hanlin, Li, Sheng, Lyu, Yan, Guo, Yucheng, Liu, Wenhao, Oh, Ji Seop, Zhang, Yichen, Mo, Sung-Kwan, Cruz, Clarina dela, Birgeneau, Robert J., Taddei, Keith M., Yi, Ming, Yang, Li, and Lv, Bing

Subjects

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

Abstract

Growth parameters play a significant role in the crystal quality and physical properties of layered materials. Here we present a case study on a van der Waals magnetic NbFeTe2 material. Two different types of polymorphic NbFeTe2 phases, synthesized at different temperatures, display significantly different behaviors in crystal symmetry, electronic structure, electrical transport, and magnetism. While the phase synthesized at low temperature showing behavior consistent with previous reports, the new phase synthesized at high temperature, has completely different physical properties, such as metallic resistivity, long-range ferromagnetic order, anomalous Hall effect, negative magnetoresistance, and distinct electronic structures. Neutron diffraction reveals out-of-plane ferromagnetism below 70K, consistent with the electrical transport and magnetic susceptibility studies. Our work suggests that simply tuning synthetic parameters in a controlled manner could be an effective route to alter the physical properties of existing materials potentially unlocking new states of matter, or even discovering new materials., Comment: 22 Pages, 6 figures

Published

2024

3. Magnetic properties of the quasi-one-dimensional S = 1 spin chain antiferromagnet BaNiTe2O7

Author

Chen, Xiyu, Gao, Yiming, Liu, Meifeng, Zou, Tao, Garlea, V. Ovidiu, Cruz, Clarina dela, Liu, Zhen, Niu, Wenjing, Tan, Leili, Zhou, Guanzhong, Liu, Fei, Zheng, Shuhan, Ma, Zhen, Wang, Xiuzhang, Li, Hong, Dong, Shuai, and Liu, Jun-Ming

Subjects

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

Abstract

We report a quasi-one-dimensional S = 1 spin chain compound BaNiTe2O7. This magnetic system has been investigated by magnetic susceptibility, specific heat, and neutron powder diffraction. These results indicate that BaNiTe2O7 develops a short-range magnetic correlation around T ~ 22 K. With further cooling, an antiferromagnetic phase transition is observed at TN ~ 5.4 K. Neutron powder diffraction revealed antiferromagnetic noncollinear order with a commensurate propagation vector k = (1/2, 1, 0). The refined magnetic moment size of Ni2+ at 1.5 K is 1.84{\mu}B, and its noncollinear spin texture is confirmed by first-principles calculations. Inelastic neutron-scattering results and density functional theory calculations confirmed the quasi-one-dimensional nature of the spin systems., Comment: 18 pages, 5 figures

Published

2023

4. Spinon continuum in the Heisenberg quantum chain compound Sr$_2$V$_3$O$_9$

Author

Gao, Shang, Lin, Ling-Fang, Laurell, Pontus, Chen, Qiang, Huang, Qing, Cruz, Clarina dela, Vemuru, Krishnamurthy V., Lumsden, Mark D., Nagler, Stephen E., Alvarez, Gonzalo, Dagotto, Elbio, Zhou, Haidong, Christianson, Andrew D., and Stone, Matthew B.

Subjects

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

Abstract

Magnetic excitations in the spin chain candidate Sr$_2$V$_3$O$_9$ have been investigated by inelastic neutron scattering on a single crystal sample. A spinon continuum with a bandwidth of $\sim22$ meV is observed along the chain formed by alternating magnetic V$^{4+}$ and nonmagnetic V$^{5+}$ ions. Incipient magnetic Bragg peaks due to weak ferromagnetic interchain couplings emerge when approaching the magnetic transition at $T_N\sim 5.3$ K while the excitations remain gapless within the instrumental resolution. Comparisons to the Bethe ansatz, density matrix renormalization group (DMRG) calculations, and effective field theories confirm Sr$_2$V$_3$O$_9$ as a host of weakly coupled $S = 1/2$ chains dominated by antiferromagnetic intrachain interactions of $\sim7.1$(1) meV., Comment: 19 pages, 9 figures

Published

2023

5. Interwoven atypical quantum states in CeLiBi$_2$

Author

Bordelon, Mitchell M., Girod, Clément, Ronning, Filip, Rubi, Km, Harrison, Neil, Thompson, Joe D., Cruz, Clarina dela, Thomas, Sean M., Bauer, Eric D., and Rosa, Priscila F. S.

Subjects

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

Abstract

We report the discovery of CeLiBi$_2$, the first example of a material in the tetragonal Ce$TX_2$ ($T$ = transition metal; $X$ = pnictogen) family wherein an alkali cation replaces the typical transition metal. Magnetic susceptibility and neutron powder diffraction measurements are consistent with a crystal-field $\Gamma_6$ ground state Kramers doublet that orders antiferromagnetically below $T_N = 3.4$ K with an incommensurate propagation wave vector ${\bf{k}} = (0, 0.0724(4), 0.5)$ that generates a nanometric modulation of the magnetic structure. The best model of the ordered state is an elliptical cycloid with Ce moments primarily residing in the $ab$ plane. This is highly unusual, as all other $\Gamma_6$ Ce$TX_2$ members order ferromagnetically. Further, we observe an atypical hard-axis metamagnetic transition at $2$ T in magnetostriction, magnetization, and resistivity measurements. CeLiBi$_2$ is a rare example of a highly conductive material with dominant skew scattering leading to a large anomalous Hall effect. Quantum oscillations with five frequencies arise in magnetostriction and magnetic susceptibility data to $T = 30$ K and $\mu_0H = 55$ T, which indicate small Fermi pockets of light carriers with effective masses as low as 0.07$m_e$. Density functional theory calculations indicate that square-net Dirac-like Bi$-p$ bands are responsible for these ultralight carriers. Together, our results show that CeLiBi$_2$ enables multiple atypical magnetic and electronic properties in a single clean material., Comment: 16 pages, 10 figures

Published

2022

6. Gapless spin-excitations in the superconducting state of a quasi-one-dimensional spin-triplet superconductor

Author

Taddei, Keith M., Lei, Bing-Hua, Susner, Michael A., Zhai, Hui-Fei, Bullard, Thomas J., Sanjeewa, Liurukara D., Zheng, Qiang, Sefat, Athena S., Chi, Songxue, Cruz, Clarina dela, Singh, David J., and Lv, Bing

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

Majorana zero modes form as intrinsic defects in an odd-orbital one-dimensional superconductor thus motivating the search for such materials in the pursuit of Majorana physics. Here, we present combined experimental results and first principles calculations which suggest that quasi-one-dimensional K$_2$Cr$_3$As$_3$ may be such a superconductor. Using inelastic neutron scattering we probe the dynamic spin-susceptibilities of K$_2$Cr$_3$As$_3$ and K$_2$Mo$_3$As$_3$ and show the presence of antiferromagnetic spin-fluctuations in both compounds. Below the superconducting transition, these fluctuations gap in K$_2$Mo$_3$As$_3$ but not in K$_2$Cr$_3$As$_3$. Using first principles calculations, we show that these fluctuations likely arise from nesting on one dimensional features of the Fermi surface. Considering these results we propose that while K$_2$Mo$_3$As$_3$ is a conventional superconductor, K$_2$Cr$_3$As$_3$ is likely a spin-triplet, and consequently, topological superconductor., Comment: 8 pages, 4 figures

Published

2022

7. Effect of iron vacancies on the magnetic order and spin dynamics of the spin ladder BaFe$_{2-\delta}$S$_{1.5}$Se$_{1.5}$

Author

Liu, Zengjia, Ni, Xiao-Sheng, Li, Lisi, Sun, Hualei, Liang, Feixiang, Frandsen, Benjamin A., Christianson, Andrew D., Cruz, Clarina dela, Xu, Zhijun, Yao, Dao-Xin, Lynn, Jeffrey W., Birgeneau, Robert J., Cao, Kun, and Wang, Meng

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

Quasi-one-dimensional iron chalcogenides possess various magnetic states depending on the lattice distortion, electronic correlations, and presence of defects. We present neutron diffraction and inelastic neutron scattering experiments on the spin ladder compound BaFe$_{2-\delta}$S$_{1.5}$Se$_{1.5}$ with $\sim$6% iron vacancies. The data reveal that long-range magnetic order is absent, while the characteristic magnetic excitations that correspond to both the stripe- and block-type antiferromagnetic correlations are observed. First-principles calculations support the existence of both stripe and block-type antiferromagnetic short-range order in the experimental sample. The disappearance of long-range magnetic order may be due to the competition between these two magnetic orders, which is greatly enhanced for a certain concentration of iron vacancies, which we calculate to be about 6%, consistent with the measured iron vacancy concentration. Our results highlight how iron vacancies in the iron-based spin ladder system strongly influence the magnetic ground state., Comment: 8 pages, 6 figures

Published

2022

8. Spiral spin-liquid on a honeycomb lattice

Author

Gao, Shang, McGuire, Michael A., Liu, Yaohua, Abernathy, Douglas L., Cruz, Clarina dela, Frontzek, Matthias, Stone, Matthew B., and Christianson, Andrew D.

Subjects

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

Abstract

Spiral spin-liquids are correlated paramagnetic states with degenerate propagation vectors forming a continuous ring or surface in reciprocal space. On the honeycomb lattice, spiral spin-liquids present a novel route to realize emergent fracton excitations, quantum spin liquids, and topological spin textures, yet experimental realizations remain elusive. Here, using neutron scattering, we show that a spiral spin-liquid is realized in the van der Waals honeycomb magnet FeCl$_3$. A continuous ring of scattering is directly observed, which indicates the emergence of an approximate U(1) symmetry in momentum space. Our work demonstrates that spiral spin-liquids can be achieved in two-dimensional systems and provides a promising platform to study the fracton physics in spiral spin-liquids., Comment: 16 pages, 14 figures

Published

2021

9. Magnetic properties of the Shastry-Sutherland lattice material BaNd$_2$ZnO$_5$

Author

Ishii, Yuto, Sala, G., Stone, M. B., Garlea, V. O., Calder, S., Chen, Jie, Yoshida, Hiroyuki K., Fukuoka, Shuhei, Yan, Jiaqiang, Cruz, Clarina dela, Du, Mao-Hua, Parker, DavidS., Zhang, Hao, Batista, C., Yamaura, Kazunari, and Christianson, A. D.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We investigate the physical properties of the Shastry-Sutherland lattice material BaNd$_2$ZnO$_5$. Neutron diffraction, magnetic susceptibility, and specific heat measurements reveal antiferromagnetic order below 1.65 K. The magnetic order is found to be a 2-$\boldsymbol{Q}$ magnetic structure with the magnetic moments lying in the Shastry-Sutherland lattice planes comprising the tetragonal crystal structure of BaNd$_2$ZnO$_5$. The ordered moment for this structure is 1.9(1) $\mu_B$ per Nd ion. Inelastic neutron scattering measurements reveal that the crystal field ground state doublet is well separated from the first excited state at 8 meV. The crystal field Hamiltonian is determined through simultaneous refinement of models with both the LS coupling and intermediate coupling approximations to the inelastic neutron scattering and magnetic susceptibility data. The ground state doublet indicates that the magnetic moments lie primarily in the basal plane with magnitude consistent with the size of the determined ordered moment., Comment: 13 pages, 8 figures

Published

2021

10. Hierarchical excitations from correlated spin tetrahedra on the breathing pyrochlore lattice

Author

Gao, Shang, May, Andrew F., Du, Mao-Hua, Paddison, Joseph A. M., Arachchige, Hasitha Suriya, Pokharel, Ganesh, Cruz, Clarina dela, Zhang, Qiang, Ehlers, Georg, Parker, David S., Mandrus, David G., Stone, Matthew B., and Christianson, Andrew D.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The hierarchy of the coupling strengths in a physical system often engenders an effective model at low energies where the decoupled high-energy modes are integrated out. Here, using neutron scattering, we show that the spin excitations in the breathing pyrochlore lattice compound CuInCr$_4$S$_8$ are hierarchical and can be approximated by an effective model of correlated tetrahedra at low energies. At higher energies, intra-tetrahedron excitations together with strong magnon-phonon couplings are observed, which suggests the possible role of the lattice degree of freedom in stabilizing the spin tetrahedra. Our work illustrates the spin dynamics in CuInCr$_4$S$_8$ and demonstrates a general effective-cluster approach to understand the dynamics on the breathing-type lattices., Comment: 11 pages, 9 figures

Published

2021

11. Canted Antiferromagnetism in the Quasi-1D Iron Chalcogenide BaFe$_{2}$Se$_{4}$

Author

Liu, Xiaoyuan, Taddei, Keith M., Li, Sheng, Liu, Wenhao, Dhale, Nikhil, Kadado, Rashad, Berman, Diana, Cruz, Clarina Dela, and Lv, Bing

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We report the synthesis and physical properties studies of quais-1D iron chalcogenide $\rm BaFe_2Se_4$ which shares the $\rm FeSe_4$ tetrahedra building motif commonly seen in the iron chalcogenide superconductors. A high-quality polycrystalline sample was achieved by solid-state reaction method and characterized by X-ray diffraction, electrical resistivity, magnetic susceptibility and neutron diffraction measurements. $\rm BaFe_2Se_4$ is a narrow gap semiconductor that magnetically orders at $\sim$ 310 K. Both neutron powder diffraction results and isothermal M-H loops suggest a canted antiferromagnetic structure where Fe sublattice are antiferromagnetically ordered along the c-axis quasi-1D chain direction, resulting in a net ferromagnetic moment in the perpendicular direction along the a-axis with tilted angle of 18.7$^\circ$ towards the b-axis., Comment: 8 pages, 4 figures

Published

2020

12. Thermal expansion coefficients of high thermal conducting BAs and BP materials

Author

Li, Sheng, Taddei, Keith M., Wang, Xiqu, Wu, Hanlin, Neuefeind, Jörg, Zackaria, Davis, Liu, Xiaoyuan, Cruz, Clarina Dela, and Lv, Bing

Subjects

Condensed Matter - Materials Science

Abstract

Recent reported very high thermal conductivities in the cubic boron arsenide (BAs) and boron phosphide (BP) crystals could potentially provide a revolutionary solution in the thermal management of high power density devices. To fully facilitate such application, compatible coefficient of thermal expansion (CTE) between the heat spreader and device substrate, in order to minimize the thermal stress, need to be considered. Here we report our experimental CTE studies of BAs and BP in the temperature range from 100K to 1150K, through a combination of X-ray single crystal diffraction and neutron powder diffraction. We demonstrated the room temperature CTE, 3.6 $\pm$ 0.15 $\times$ 10E-6 /K for BAs and 3.2 $\pm$ 0.2 $\times$ 10E-6 /K for BP, are more compatible with most of the semiconductors including Si and GaAs, in comparison with diamond, and thus could be better candidates for the future heat spreader materials in power electronic devices., Comment: 13 pages, 3 figures, accepted by applied physics letters

Published

2019

13. Tuning from Frustrated Magnetism to Superconductivity in Quasi-One-Dimensional KCr$_3$As$_3$ Through Hydrogen Doping

Author

Taddei, Keith M., Sanjeewa, Liurukara D., Lei, Bing-Hua, Fu, Yuhao, Zheng, Qiang, Singh, David J., Sefat, Athena S., and Cruz, Clarina dela

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We report the charge doping of KCr$_3$As$_3$ via H intercalation. We show that the previously reported ethanol bath deintercalation of K$_2$Cr$_3$As$_3$ to KCr$_3$As$_3$ has a secondary effect whereby H from the bath enters the quasi-one-dimensional Cr$_6$As$_6$ chains. Furthermore, we find that - contrary to previous interpretations - the difference between non-superconducting as-grown KCr$_3$As$_3$ samples and superconducting hydrothermally annealed samples is not a change in crystallinity but due to charge doping, with the latter treatment increasing the H concentration in the CrAs tubes effectively electron-doping the 133 compound. These results suggest a new stoichiometry KH$_x$Cr$_3$As$_3$, that superconductivity arises from a suppressed magnetic order via a tunable parameter and pave the way for the first charge-doped phase diagram in these materials., Comment: 15 pages, 9 figures

Published

2019

14. Incommensurate magnetism in K$_2$MnS$_{2-x}$Se$_x$ and prospects for tunable frustration in a triangular lattice of pseudo-1D spin chains

Author

Bhutani, Ankita, Behera, Piush, McAuliffe, Rebecca D., Cao, Huibo, Huq, Ashfia, Kirkham, Melanie J., Cruz, Clarina dela, Woods, Toby, and Shoemaker, Daniel P.

Subjects

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

Abstract

We report the first detailed investigation of K$_2$MnS$_2$ and K$_2$MnSe$_2$ from the K$_2$MnS$_2$ structure type and their magnetic solid solution K$_2$MnS$_{2-x}$Se$_x$ and find that compounds of this structure type consist of strongly-coupled pseudo-one-dimensional antiferromagnetic chains that collectively represent a frustrated two-dimensional triangular antiferromagnet. Bulk samples of K$_2$MnS$_{2-x}$Se$_x$ with $0 \leq x \leq 2$ are characterized using X-ray diffraction, neutron diffraction, magnetization and heat capacity measurements. An incommensurate cycloid magnetic structure with a magnetic propagation vector $k = [0.58~0~1]$ is observed for all samples in K$_2$MnS$_{2-x}$Se$_x$, and the ordering is robust despite a 12\% increase in cell volume. Geometric frustration of chains results in incommensurability along $a$ and a two-step magnetic transition. The varying geometries accessible in compounds of this structure type are presented as promising avenues to tune frustration., Comment: 8 pages, 11 figures

Published

2019

15. Antiferromagnetism in kagome $\alpha$-Cu$_{3}$Mg(OH)$_6$Br$_2$

Author

Wei, Yuan, Feng, Zili, Cruz, Clarina dela, Yi, Wei, Meng, Zi Yang, Mei, Jia-Wei, Shi, Youguo, and Li, Shiliang

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The antiferromagnetism in $\alpha$-Cu$_3$Mg(OH)$_6$Br$_2$ was studied by magnetic-susceptibility, specific-heat and neutron-diffraction measurements. The crystal structure consists of Cu$^{2+}$ kagome layers with Mg$^{2+}$ ions occupying the centers of the hexagons, separated by Br$^{1-}$ ions. The magnetic system orders antiferromagnetically at 5.4 K with the magnetic moments aligned ferromagnetically within the kagome planes. The ordered moment is 0.94 $\mu_B$, suggesting little quantum and geometrical fluctuations. By comparing the magnetic and specific-heat properties with those of the haydeeite, we suggest that $\alpha$-Cu$_3$Mg(OH)$_6$Br$_2$ may be described by the two-dimensional spin-$1/2$ Heisenberg kagome model and is in the region of the ferromagnetic-order side of the phase diagram., Comment: 5 pages, 4 figures

Published

2019

16. Effect of Zn doping on the antiferromagnetism in kagome Cu$_{4-x}$Zn$_x$(OH)$_6$FBr

Author

Feng, Zili, Wei, Yuan, Liu, Ran, Yan, Dayu, Wang, Yan-Cheng, Luo, Jianlin, Senyshyn, Anatoliy, Cruz, Clarina dela, Yi, Wei, Mei, Jia-Wei, Meng, Zi Yang, Shi, Youguo, and Li, Shiliang

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Barlowite Cu$_4$(OH)$_6$FBr shows three-dimensional (3D) long-range antiferromagnetism, which is fully suppressed in Cu$_3$Zn(OH)$_6$FBr with a kagome quantum spin liquid ground state. Here we report systematic studies on the evolution of magnetism in the Cu$_{4-x}$Zn$_x$(OH)$_{6}$FBr system as a function of $x$ to bridge the two limits of Cu$_4$(OH)$_6$FBr ($x$=0) and Cu$_3$Zn(OH)$_6$FBr ($x$=1). Neutron-diffraction measurements reveal a hexagonal-to-orthorhombic structural change with decreasing temperature in the $x$ = 0 sample. While confirming the 3D antiferromagnetic nature of low-temperature magnetism, the magnetic moments on some Cu$^{2+}$ sites on the kagome planes are found to be vanishingly small, suggesting strong frustration already exists in barlowite. Substitution of interlayer Cu$^{2+}$ with Zn$^{2+}$ with gradually increasing $x$ completely suppresses the bulk magnetic order at around $x$ = 0.4, but leaves a local secondary magnetic order up to $x\sim 0.8$ with a slight decrease in its transition temperature. The high-temperature magnetic susceptibility and specific heat measurements further suggest that the intrinsic magnetic properties of kagome spin liquid planes may already appear from $x>0.3$ samples. Our results reveal that the Cu$_{4-x}$Zn$_x$(OH)$_6$FBr may be the long-thought experimental playground for the systematic investigations of the quantum phase transition from a long-range antiferromagnet to a topologically ordered quantum spin liquid., Comment: 9 pages, 6 figures

Published

2017

17. Evidence for the topological order in a kagome antiferromagnet

Author

Wei, Yuan, Feng, Zili, Lohstroh, Wiebke, Yu, D. H., Le, Duc, Cruz, Clarina dela, Yi, Wei, Ding, Z. F., Zhang, J., Tan, Cheng, Shu, Lei, Wang, Yan-Cheng, Wu, Han-Qing, Luo, Jianlin, Mei, Jia-Wei, Yang, Fang, Sheng, Xian-Lei, Li, Wei, Qi, Yang, Meng, Zi Yang, Shi, Youguo, and Li, Shiliang

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

A Z2 quantum spin liquid hosts one of the simplest topological orders and exhibits many exotic properties due to long-range quantum entanglements. Its elementary excitations are anyons such as spinons carrying fractionalized spin quantum number and visons carrying emergent Z2 gauge flux. However, experimental detection of these anyons remains elusive. The difficulties lie not only in the fact that there exists few candidates for Z2 quantum spin liquids but also in that visons are magnetically inert hence immune to available experimental techniques. Here we have studied the spin excitations and specific heats of kagome-lattice antiferromagnet Cu$_4$(OH)$_6$FBr and Cu$_3$Zn(OH)$_6$FBr, which consists of two-dimensional Cu$^{2+}$ kagome layers with either Cu$^{2+}$ or Zn$^{2+}$ ions in between. By combining the first principle calculations and inelastic neutron scattering data in the former, we show that the dominate couplings in Cu$_4$(OH)$_6$FBr are between the nearest neighbor spins within the kagome planes, and the kagome and interlayer spin systems are essentially decoupled above the antiferromagnetic transition temperature. The intrinsic spin excitations and specific heats of the kagome layers for Cu$_3$Zn(OH)$_6$FBr are thus derived by removing the contributions from the residual interlayer Cu$^{2+}$ magnetic impurities. Accordingly, the kagome spin system exhibits spin continuum with momentum-dependent spin gap and a large magnetic entropy at low temperature that is insensitive to magnetic field, which can be understood as the evidences of spinons and visons in this kagome quantum spin liquid candidate. Our results suggest the existence of the Z2 anyons in the material, and therefore provide a comprehensive set of evidences for the Z2 topological order in kagome quantum spin liquid and bring their choreographed entanglement dances to the stage of real materials., Comment: 11 pages, 8 figures

Published

2017

18. Spinon continuum in the Heisenberg quantum chain compound Sr2V3O9

Author

Gao, Shang, primary, Lin, Ling-Fang, additional, Laurell, Pontus, additional, Chen, Qiang, additional, Huang, Qing, additional, Cruz, Clarina dela, additional, Vemuru, Krishnamurthy V., additional, Lumsden, Mark D., additional, Nagler, Stephen E., additional, Alvarez, Gonzalo, additional, Dagotto, Elbio, additional, Zhou, Haidong, additional, Christianson, Andrew D., additional, and Stone, Matthew B., additional

Published

2024

19. Coincident structural and magnetic order in BaFe$_2$(As$_{1-x}$)P$_x$)$_2$ revealed by high-resolution neutron diffraction

Author

Allred, Jared M., Taddei, Keith M., Bugaris, Daniel E., Avci, Sevda, Chung, Duck Young, Claus, Helmut, Cruz, Clarina dela, Kanatzidis, Mercouri G., Rosenkranz, Stephan, Osborn, Ray, and Chmaissem, Omar

Subjects

Condensed Matter - Superconductivity

Abstract

We present neutron diffraction analysis of BaFe$_2$(As$_{1-x}$P$_x$)$_2$ over a wide temperature (10 to 300 K) and compositional ($0.11 \leq x \leq 0.79$) range, including the normal state, the magnetically ordered state, and the superconducting state. The paramagnetic to spin-density wave and orthorhombic to tetragonal transitions are first order and coincident within the sensitivity of our measurements ($\sim 0.5$ K). Extrapolation of the orthorhombic order parameter down to zero suggests that structural quantum criticality cannot exist at compositions higher than $x = 0.28$, which is much lower than values determined using other methods, but in good agreement with our observations of the actual phase stability range. The onset of spin-density wave order shows a stronger structural anomaly than the charge-doped system in the form of an enhancement of the $c/a$ ratio below the transition., Comment: 10 pages, 7 figures, 2 tables

Published

2014

20. Unusual Relationship between Magnetism and Superconductivity in FeTe$_{0.5}$Se$_{0.5}$

Author

Mook, H. A., Lumsden, M. D., Christianson, A. D., Nagler, S. E., Sales, Brian C., Jin, Rongying, McGuire, Michael A., Sefat, Athena, Mandrus, D., Egami, T., and Cruz, Clarina dela

Subjects

Condensed Matter - Superconductivity

Abstract

We use neutron scattering, to study magnetic excitations in crystals near the ideal superconducting composition of FeTe$_{0.5}$Se$_{0.5}$. Two types of excitations are found, a resonance at (0.5, 0.5, 0) and incommensurate fluctuations on either side of this position. We show that the two sets of magnetic excitations behave differently with doping, with the resonance being fixed in position while the incommensurate excitations move as the doping is changed. These unusual results show that a common behavior of the low energy magnetic excitations is not necessary for pairing in these materials., Comment: 8 pages, 3 figures

Published

2009

21. Large linear magnetoelectric effect and field-induced ferromagnetism and ferroelectricity in DyCrO4

Author

Shen, Xudong, Zhou, Long, Chai, Yisheng, Wu, Yan, Liu, Zhehong, Yin, Yunyu, Cao, Huibo, Cruz, Clarina Dela, Sun, Young, Jin, Changqing, Muñoz, Angel, Alonso, José Antonio, and Long, Youwen

Published

2019

22. Can a charge-ordered state be metallic?

Author

Xia, Hailiang, primary, Liu, Zhehong, additional, Wu, Yan, additional, Sun, Qian, additional, Hayashi, Naoaki, additional, shen, xi, additional, Cao, Huibo, additional, Cruz, Clarina dela, additional, Yu, Richeng, additional, Yang, Yi-feng, additional, Takano, Mikio, additional, and Long, Youwen, additional

Published

2022

23. Spiral Spin Liquid on a Honeycomb Lattice

Author

Gao, Shang, primary, McGuire, Michael A., additional, Liu, Yaohua, additional, Abernathy, Douglas L., additional, Cruz, Clarina dela, additional, Frontzek, Matthias, additional, Stone, Matthew B., additional, and Christianson, Andrew D., additional

Published

2022

24. Effect of iron vacancies on the magnetic order and spin dynamics of the spin ladder BaFe$_{2-δ}$S$_{1.5}$Se$_{1.5}$

Author

Liu, Zengjia, Ni, Xiao-Sheng, Li, Lisi, Sun, Hualei, Liang, Feixiang, Frandsen, Benjamin A., Christianson, Andrew D., Cruz, Clarina dela, Xu, Zhijun, Yao, Dao-Xin, Lynn, Jeffrey W., Birgeneau, Robert J., Cao, Kun, and Wang, Meng

Subjects

Superconductivity (cond-mat.supr-con), Strongly Correlated Electrons (cond-mat.str-el), FOS: Physical sciences, Condensed Matter::Strongly Correlated Electrons

Abstract

Quasi-one-dimensional iron chalcogenides possess various magnetic states depending on the lattice distortion, electronic correlations, and presence of defects. We present neutron diffraction and inelastic neutron scattering experiments on the spin ladder compound BaFe$_{2-δ}$S$_{1.5}$Se$_{1.5}$ with $\sim$6% iron vacancies. The data reveal that long-range magnetic order is absent, while the characteristic magnetic excitations that correspond to both the stripe- and block-type antiferromagnetic correlations are observed. First-principles calculations support the existence of both stripe and block-type antiferromagnetic short-range order in the experimental sample. The disappearance of long-range magnetic order may be due to the competition between these two magnetic orders, which is greatly enhanced for a certain concentration of iron vacancies, which we calculate to be about 6%, consistent with the measured iron vacancy concentration. Our results highlight how iron vacancies in the iron-based spin ladder system strongly influence the magnetic ground state., 8 pages, 6 figures

Published

2022

25. Effects of Sn substitution in SrRuO3 epitaxial films

Author

Huon, Amanda, primary, Yoon, Sangmoon, additional, Fitzsimmons, Michael R., additional, Charlton, Timothy R., additional, Ok, Jong Mok, additional, Cruz, Clarina dela, additional, and Lee, Ho Nyung, additional

Published

2021

26. Canted antiferromagnetism in the quasi-one-dimensional iron chalcogenide BaFe2Se4

Author

Liu, Xiaoyuan, primary, Taddei, Keith M., additional, Li, Sheng, additional, Liu, Wenhao, additional, Dhale, Nikhil, additional, Kadado, Rashad, additional, Berman, Diana, additional, Cruz, Clarina Dela, additional, and Lv, Bing, additional

Published

2020

27. Effects of Sn substitution in SrRuO3 epitaxial films.

Author

Huon, Amanda, Yoon, Sangmoon, Fitzsimmons, Michael R., Charlton, Timothy R., Ok, Jong Mok, Cruz, Clarina dela, and Lee, Ho Nyung

Subjects

TIN, PULSED laser deposition, THIN films, LATTICE constants, MAGNETIC properties, MAGNETIC control

Abstract

Epitaxial SrRu1−xSnxO3 (0 ≤ x ≤ 1) thin films were deposited on SrTiO3 (001) substrates by sequential two-target synthesis using pulsed laser deposition to achieve stable phases in this family of quaternary perovskites. The SrRu1−xSnxO3 films exhibit a good crystalline quality, a sharp interface between film and substrate, and an atomically smooth surface. A gradual expansion of the c-axis lattice parameter was observed with Sn doping serving as a means to tune chemical pressure and magnetism. With an increase in Sn doping, the resistivity of the film increased, and the ferromagnetism decreased. These results illustrate use of lattice engineering, e.g., tuning of c-axis lattice parameter with chemical doping, to control electronic and magnetic properties of epitaxial thin films for applications in oxide electronics. [ABSTRACT FROM AUTHOR]

Published

2021

28. Effect of Zn doping on the antiferromagnetism in kagomeCu4−xZnx(OH)6FBr

Author

Feng, Zili, primary, Wei, Yuan, additional, Liu, Ran, additional, Yan, Dayu, additional, Wang, Yan-Cheng, additional, Luo, Jianlin, additional, Senyshyn, Anatoliy, additional, Cruz, Clarina dela, additional, Yi, Wei, additional, Mei, Jia-Wei, additional, Meng, Zi Yang, additional, Shi, Youguo, additional, and Li, Shiliang, additional

Published

2018

29. Observation of Magnetoelectric Multiferroicity in a Cubic Perovskite System:LaMn3Cr4O12

Author

Wang, Xiao, primary, Chai, Yisheng, additional, Zhou, Long, additional, Cao, Huibo, additional, Cruz, Clarina-dela, additional, Yang, Junye, additional, Dai, Jianhong, additional, Yin, Yunyu, additional, Yuan, Zhen, additional, Zhang, Sijia, additional, Yu, Runze, additional, Azuma, Masaki, additional, Shimakawa, Yuichi, additional, Zhang, Huimin, additional, Dong, Shuai, additional, Sun, Young, additional, Jin, Changqing, additional, and Long, Youwen, additional

Published

2015

30. Electrical Properties, Cation Distributions, and Thermal Expansion of Manganese Cobalt Chromite Spinel Oxides

Author

Liu, Yingjia, primary, Fergus, Jeffrey W., additional, and Cruz, Clarina Dela, additional

Published

2013

31. Large linear magnetoelectric effect and field-induced ferromagnetism and ferroelectricity in DyCrO4.

Author

Shen, Xudong, Zhou, Long, Chai, Yisheng, Wu, Yan, Liu, Zhehong, Yin, Yunyu, Cao, Huibo, Cruz, Clarina Dela, Sun, Young, Jin, Changqing, Muñoz, Angel, Alonso, José Antonio, and Long, Youwen

Published

2019

32. Observation of Magnetoelectric Multiferroicity in a Cubic Perovskite System: LaMn3Cr4O12.

Author

Xiao Wang, Yisheng Chai, Long Zhou, Huibo Cao, Cruz, Clarina-dela, Junye Yang, Jianhong Dai, Yunyu Yin, Zhen Yuan, Sijia Zhang, Runze Yu, Masaki Azuma, Yuichi Shimakawa, Huimin Zhang, Shuai Dong, Young Sun, Changqing Jin, and Youwen Long

Subjects

*MAGNETOELECTRIC effect, *PEROVSKITE analysis, *LANTHANUM compounds, *RAMAN scattering, *POLARIZATION (Electricity)

Abstract

Magnetoelectric multiferroicity is not expected to occur in a cubic perovskite system because of the high structural symmetry. By versatile measurements in magnetization, dielectric constant, electric polarization, neutron and x-ray diffraction, Raman scattering, as well as theoretical calculations, we reveal that the A-site ordered perovskite LaMn3Cr4O12 with cubic symmetry is a novel spin-driven multiferroic system with strong magnetoelectric coupling effects. When a magnetic field is applied in parallel (perpendicular) to an electric field, the ferroelectric polarization can be enhanced (suppressed) significantly. The unique multiferroic phenomenon observed in this cubic perovskite cannot be understood by conventional spin-driven microscopic mechanisms. Instead, a nontrivial effect involving the interactions between two magnetic sublattices is likely to play a crucial role. [ABSTRACT FROM AUTHOR]

Published

2015