Your search keyword '"Schönemann, R."' showing total 84 results

1. Interplay between strong correlations and electronic topology in the underlying kagome lattice of Na2/3CoO2

Author

Gilmutdinov, I. F., Schönemann, R., Vignolles, D., Proust, C., Mukhamedshin, I. R., Balicas, L., and Alloul, H.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Electronic topology in metallic kagome compounds is under intense scrutiny. We present transport experiments in Na2/3CoO2 in which the Na order differentiates a Co kagome sub-lattice in the triangular CoO2 layers. Hall and magnetoresistance (MR) data under high fields give evidence for the coexistence of light and heavy carriers. At low temperatures, the dominant light carrier conductivity at zero field is suppressed by a B-linear MR suggesting Dirac like quasiparticles. Lifshitz transitions induced at large B and T unveil the lower mobility carriers. They display a negative B^2 MR due to scattering from magnetic moments likely pertaining to a flat band. We underline an analogy with heavy Fermion physics., Comment: Title and discussion changed after review. More technical details have been added in the Supplementary Materials. Published as a letter in Phys. Rev. B (Phys. Rev. B 104, L201103). 4 figures in the Main text + 7 figures in the Supplemental Materials

Published

2021

2. Origin of the butterfly magnetoresistance in a Dirac nodal-line system

Author

Chiu, Y. -C., Chen, K. -W., Schönemann, R., Quito, V. L., Sur, S., Zhou, Q., Graf, D., Kampert, E., Förster, T., Yang, K., McCandless, G. T., Chan, Julia Y., Baumbach, R. E., Johannes, M. D., and Balicas, L.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We report a study on the magnetotransport properties and on the Fermi surfaces (FS) of the ZrSi(Se,Te) semimetals. Density Functional Theory (DFT) calculations, in absence of spin orbit coupling (SOC), reveal that both the Se and the Te compounds display Dirac nodal lines (DNL) close to the Fermi level $\varepsilon_F$ at symmorphic and non-symmorphic positions, respectively. We find that the geometry of their FSs agrees well with DFT predictions. ZrSiSe displays low residual resistivities, pronounced magnetoresistivity, high carrier mobilities, and a butterfly-like angle-dependent magnetoresistivity (AMR), although its DNL is not protected against gap opening. As in Cd$_3$As$_2$, its transport lifetime is found to be 10$^2$ to 10$^3$ times larger than its quantum one. ZrSiTe, which possesses a protected DNL, displays conventional transport properties. Our evaluation indicates that both compounds most likely are topologically trivial. Nearly angle-independent effective masses with strong angle dependent quantum lifetimes lead to the butterfly AMR in ZrSiSe.

Published

2019

3. Detailed study on the Fermi surfaces of the type-II Dirac semimetallic candidates PdTe2 and PtTe2

Author

Zheng, W., Schönemann, R., Aryal, N., Zhou, Q., Rhodes, D., Chiu, Y. -C., Chen, K. -W., Kampert, E., Förster, T., Martin, T. J., McCandless, G. T., Chan, J. Y., Manousakis, E., and Balicas, L.

Subjects

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

Abstract

We present a detailed quantum oscillatory study on the Dirac type-II semimetallic candidates PdTe$_{2}$ and PtTe$_{2}$ \emph{via} the temperature and the angular dependence of the de Haas-van Alphen (dHvA) and Shubnikov-de Haas (SdH) effects. In high quality single crystals of both compounds, i.e. displaying carrier mobilities between $10^3$ and $10^4$ cm$^2$/Vs, we observed a large non-saturating magnetoresistivity (MR) which in PtTe$_2$ at a temperature $T = 1.3$ K, leads to an increase in the resistivity up to $5 \times 10^{4}$ % under a magnetic field $\mu_0 H = 62$ T. These high mobilities correlate with their light effective masses in the range of 0.04 to 1 bare electron mass according to our measurements. For PdTe$_{2}$ the experimentally determined Fermi surface cross-sectional areas show an excellent agreement with those resulting from band-structure calculations. Surprisingly, this is not the case for PtTe$_{2}$ whose agreement between calculations and experiments is relatively poor even when electronic correlations are included in the calculations. Therefore, our study provides a strong support for the existence of a Dirac type-II node in PdTe$_2$ and probably also for PtTe$_2$. Band structure calculations indicate that the topologically non-trivial bands of PtTe$_2$ do not cross the Fermi-level ($\varepsilon_F$). In contrast, for PdTe$_2$ the Dirac type-II cone does intersect $\varepsilon_F$, although our calculations also indicate that the associated cyclotron orbit on the Fermi surface is located in a distinct $k_z$ plane with respect to the one of the Dirac type-II node. Therefore it should yield a trivial Berry-phase., Comment: 11 pages, 9 figures

Published

2018

4. Anomalous metamagnetism in the low carrier density Kondo lattice YbRh3Si7

Author

Rai, Binod K., Chikara, S., Ding, Xiaxin, Oswald, Iain W. H., Schoenemann, R., Loganathan, V., Hallas, A. M., Cao, H. B., Stavinoha, M., Man, Haoran, Carr, Scott, Singleton, John, Zapf, Vivien, Benavides, Katherine, Chan, Julia Y., Zhang, Q. R., Rhodes, D., Chiu, Y. C., Balicas, Luis, Aczel, A. A., Huang, Q., Lynn, Jeffrey W., Gaudet, J., Sokolov, D. A., Dai, Pengcheng, Nevidomskyy, Andriy H., Huang, C. -L., and Morosan, E.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We report complex metamagnetic transitions in single crystals of the new low carrier Kondo antiferromagnet YbRh3Si7. Electrical transport, magnetization, and specific heat measurements reveal antiferromagnetic order at T_N = 7.5 K. Neutron diffraction measurements show that the magnetic ground state of YbRh3Si7 is a collinear antiferromagnet where the moments are aligned in the ab plane. With such an ordered state, no metamagnetic transitions are expected when a magnetic field is applied along the c axis. It is therefore surprising that high field magnetization, torque, and resistivity measurements with H||c reveal two metamagnetic transitions at mu_0H_1 = 6.7 T and mu_0H_2 = 21 T. When the field is tilted away from the c axis, towards the ab plane, both metamagnetic transitions are shifted to higher fields. The first metamagnetic transition leads to an abrupt increase in the electrical resistivity, while the second transition is accompanied by a dramatic reduction in the electrical resistivity. Thus, the magnetic and electronic degrees of freedom in YbRh3Si7 are strongly coupled. We discuss the origin of the anomalous metamagnetism and conclude that it is related to competition between crystal electric field anisotropy and anisotropic exchange interactions., Comment: 23 pages and 4 figures in the main text. 7 pages and 5 figures in the supplementary material

Published

2018

5. Fermi surface of the Weyl type-II metallic candidate WP2

Author

Schönemann, R., Aryal, N., Zhou, Q., Chiu, Y. -C., Chen, K. -W., Martin, T. J., McCandless, G. T., Chan, J. Y., Manousakis, E., and Balicas, L.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Weyl type-II fermions are massless quasiparticles that obey the Weyl equation and which are predicted to occur at the boundary between electron- and hole-pockets in certain semi-metals, i.e. the (W,Mo)(Te,P)$_2$ compounds. Here, we present a study of the Fermi-surface of WP$_2$ \emph{via} the Shubnikov-de Haas (SdH) effect. Compared to other semi-metals WP$_2$ exhibits a very low residual resistivity, i.e. $\rho_0 \simeq 10$ n$\Omega$cm, which leads to perhaps the largest non-saturating magneto-resistivity $(\rho(H))$ reported for any compound. For the samples displaying the smallest $\rho_0$, $\rho(H)$ is observed to increase by a factor of $2.5 \times 10^{7}$ $\%$ under $\mu_{0}H = 35$ T at $T = 0.35$ K. The angular dependence of the SdH frequencies is found to be in very good agreement with the first-principle calculations when the electron- and hole-bands are slightly shifted with respect to the Fermi level, thus supporting the existence of underlying Weyl type-II points in WP$_2$., Comment: 6 pages, 4 figures, supplementary information not included

Published

2017

6. Planar Hall-effect, Anomalous planar Hall-effect, and Magnetic Field-Induced Phase Transitions in TaAs

Author

Zhang, Q. R., Zeng, B., Chiu, Y. C., Schoenemann, R., Memaran, S., Zheng, W., Rhodes, D., Chen, K. -W., Besara, T., Sankar, R., Chou, F., McCandless, G. T., Chan, J. Y., Alidoust, N., Xu, S. -Y., Belopolski, I., Hasan, M. Z., Balakirev, F. F., and Balicas, L.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We evaluate the topological character of TaAs through a detailed study of the angular, magnetic-field and temperature dependence of its magnetoresistivity and Hall-effect(s), and of its bulk electronic structure through quantum oscillatory phenomena. At low temperatures, and for fields perpendicular to the electrical current, we extract an extremely large Hall angle $\Theta_H$ at higher fields, that is $\Theta_H \sim 82.5^{\circ}$, implying a very pronounced Hall signal superimposed into its magnetoresistivity. For magnetic fields and electrical currents perpendicular to the \emph{c}-axis we observe a very pronounced planar Hall-effect, when the magnetic field is rotated within the basal plane. This effect is observed even at higher temperatures, i.e. as high as $T = 100$ K, and predicted recently to result from the chiral anomaly among Weyl points. Superimposed onto this planar Hall, which is an even function of the field, we observe an anomalous planar Hall-signal akin to the one reported for that is an odd function of the field. Below 100 K, negative longitudinal magnetoresistivity (LMR), initially ascribed to the chiral anomaly and subsequently to current inhomogeneities, is observed in samples having different geometries and contact configurations, once the large Hall signal is subtracted. Our measurements reveal a phase transition upon approaching the quantum limit that leads to the reconstruction of the FS and to the concomitant suppression of the negative LMR indicating that it is intrinsically associated with the Weyl dispersion at the Fermi level. For fields along the \emph{a}-axis it also leads to a pronounced hysteresis pointing to a field-induced electronic phase-transition. This collection of unconventional tranport observations points to the prominent role played by the axial anomaly among Weyl nodes., Comment: 13 pages, 8 figures, Supplemental File not included

Published

2017

7. Physical properties of a candidate quantum spin-ice system Pr2Hf2O7

Author

Anand, V. K., Opherden, L., Xu, J., Adroja, D. T., Islam, A. T. M. N., Herrmannsdörfer, T., Hornung, J., Schönemann, R., Uhlarz, M., Walker, H. C., Casati, N., and Lake, B.

Subjects

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

Abstract

Physical properties of a pyrohafnate compound Pr2Hf2O7 have been investigated by ac magnetic susceptibility \chi_ ac(T), dc magnetic susceptibility \chi(T), isothermal magnetization M(H) and heat capacity C_p(T) measurements on polycrystalline as well as single crystal samples combined with high-resolution synchrotron x-ray diffraction (XRD) for structural characterization and inelastic neutron scattering (INS) to determine the crystal field energy level scheme and wave functions. Synchrotron XRD data confirm the ordered cubic pyrochlore (Fd-3m) structure without any noticeable site mixing or oxygen deficiency. No clear evidence of long range magnetic ordering is observed down to 90 mK, however the \chi_ac(T) evinces slow spin dynamics revealed by a frequency dependent broad peak associated with spin freezing. The INS data reveal the expected five well defined magnetic excitations due to crystal field splitting of the J = 4 ground state multiplet of the Pr^3+. The crystal field parameters and ground state wavefunction of Pr^3+ have been determined. The Ising anisotropic nature of magnetic ground state is inferred from the INS as well as \chi(T) and M(H) data. Together these properties make Pr2Hf2O7 a candidate compound for quantum spin-ice behavior., Comment: 12 pages, 10 figures, 2 tables

Published

2017

8. Hall-effect within the colossal magnetoresistive semi-metallic state of MoTe2

Author

Zhou, Qiong, Rhodes, D., Zhang, Q. R., Tang, S., Schönemann, R., and Balicas, L.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Materials Science

Abstract

Here, we report a systematic study on the Hall-effect of the semi-metallic state of bulk MoTe$_2$, which was recently claimed to be a candidate for a novel type of Weyl semi-metallic state. The temperature ($T$) dependence of the carrier densities and of their mobilities, as estimated from a numerical analysis based on the isotropic two-carrier model, indicates that its exceedingly large and non-saturating magnetoresistance may be attributed to a near perfect compensation between the densities of electrons and holes at low temperatures. A sudden increase in hole density, with a concomitant rapid increase in the electron mobility below $T \sim 40$ K, leads to comparable densities of electrons and holes at low temperatures suggesting a possible electronic phase-transition around this temperature., Comment: 6 pages, 4 figures

Published

2016

9. Bulk Fermi-surface of the Weyl type-II semi-metallic candidate MoTe2

Author

Rhodes, D., Schönemann, R., Aryal, N., Zhou, Q., Zhang, Q. R., Kampert, E., Chiu, Y. -C., Lai, Y., Shimura, Y., McCandless, G. T., Chan, J. Y., Paley, D. W., Lee, J., Finke, A. D., Ruff, J. P. C., Das, S., Manousakis, E., and Balicas, L.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity

Abstract

The electronic structure of WTe$_2$ and orthorhombic $\gamma-$MoTe$_2$, are claimed to contain pairs of Weyl type-II points. A series of ARPES experiments claim a broad agreement with these predictions. We synthesized single-crystals of MoTe$_2$ through a Te flux method to validate these predictions through measurements of its bulk Fermi surface (FS) \emph{via} quantum oscillatory phenomena. We find that the superconducting transition temperature of $\gamma-$MoTe$_2$ depends on disorder as quantified by the ratio between the room- and low-temperature resistivities, suggesting the possibility of an unconventional superconducting pairing symmetry. Similarly to WTe$_2$, the magnetoresistivity of $\gamma-$MoTe$_2$ does not saturate at high magnetic fields and can easily surpass $10^{6}$ \%. Remarkably, the analysis of the de Haas-van Alphen (dHvA) signal superimposed onto the magnetic torque, indicates that the geometry of its FS is markedly distinct from the calculated one. The dHvA signal also reveals that the FS is affected by the Zeeman-effect precluding the extraction of the Berry-phase. A direct comparison between the previous ARPES studies and density-functional-theory (DFT) calculations reveals a disagreement in the position of the valence bands relative to the Fermi level $\varepsilon_F$. Here, we show that a shift of the DFT valence bands relative to $\varepsilon_F$, in order to match the ARPES observations, and of the DFT electron bands to explain some of the observed dHvA frequencies, leads to a good agreement between the calculations and the angular dependence of the FS cross-sectional areas observed experimentally. However, this relative displacement between electron- and hole-bands eliminates their crossings and, therefore, the Weyl type-II points predicted for $\gamma-$MoTe$_2$., Comment: 13 pages, 7 figures, supplementary file not included (in press)

Published

2016

10. Critical exponents and intrinsic broadening of the field-induced transition in NiCl$_2$$\cdot$4SC(NH$_2$)$_2$

Author

Wulf, E., Hüvonen, D., Schönemann, R., Kühne, H., Herrmannsdörfer, T., Glavatskyy, I., Gerischer, S., Kiefer, K., Gvasaliya, S., and Zheludev, A.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The field-induced ordering transition in the quantum spin system NiCl$_2$$\cdot$4SC(NH$_2$)$_2$ is studied by means of neutron diffraction, AC magnetometry and relaxation calorimetry. The interpretation of the data is strongly influenced by a finite distribution of transition fields in the samples, which was present but disregarded in previous studies. Taking this effect into account, we find that the order-parameter critical exponent is inconsistent with the BEC universality class even at temperatures below 100 mK. All results are discussed in comparison with previous measurements and with recent similar studies of disordered Ni(Cl$_{1-x}$Br$_x$)$_2$$\cdot$4SC(NH$_2$)$_2$.

Published

2014

11. On the low-field Hall coefficient of graphite

Author

Esquinazi, P., Krüger, J., Barzola-Quiquia, J., Schönemann, R., Herrmannsdörfer, T., and García, N.

Subjects

Condensed Matter - Superconductivity

Abstract

We have measured the temperature and magnetic field dependence of the Hall coefficient ($R_{\rm H}$) in three, several micrometer long multigraphene samples of thickness between $\sim 9~$to $\sim 30$~nm in the temperature range 0.1 to 200~K and up to 0.2~T field. The temperature dependence of the longitudinal resistance of two of the samples indicates the contribution from embedded interfaces running parallel to the graphene layers. At low enough temperatures and fields $R_{\rm H}$ is positive in all samples, showing a crossover to negative values at high enough fields and/or temperatures in samples with interfaces contribution. The overall results are compatible with the reported superconducting behavior of embedded interfaces in the graphite structure and indicate that the negative low magnetic field Hall coefficient is not intrinsic of the ideal graphite structure., Comment: 10 pages with 7 figures, to be published in AIP Advances (2014)

Published

2014

12. Interplay between strong correlations and electronic topology in the underlying kagome lattice of Na2/3CoO2

Author

Gilmutdinov, I. F., primary, Schönemann, R., additional, Vignolles, D., additional, Proust, C., additional, Mukhamedshin, I. R., additional, Balicas, L., additional, and Alloul, H., additional

Published

2021

13. Multiple Dirac nodes and symmetry protected Dirac nodal line in orthorhombic α-RhSi

Author

Mozaffari, S. Aryal, N. Schönemann, R. Chen, K.-W. Zheng, W. McCandless, G.T. Chan, J.Y. Manousakis, E. Balicas, L.

Abstract

Exotic multifold topological excitations have been predicted and were recently observed in transition metal silicides like β-RhSi. Herein, we report that interesting topological features of RhSi are also observed in its orthorhombic α phase, which displays multiple types of Dirac nodes very close to the Fermi level ÉF. We discuss the symmetry analysis, band connectivity along high-symmetry lines using group representations, band structure, the nature of the Dirac points and of a nodal line occurring near ÉF which is protected by the crystalline symmetry. The de Haas-van Alphen effect indicates a Fermi surface in agreement with the calculations. We find an elliptically shaped nodal line very close to ÉF around and near the S point on the ky-kz plane that results from the intersection of two upside-down Dirac cones. Both Dirac points of the participating Kramers degenerate bands are only 5 meV apart; hence, an accessible magnetic field might induce a crossing between the spin-up partner of the upper Dirac cone and the spin-down partner of the lower Dirac cone, possibly explaining the anomalies observed in the magnetic torque. α-RhSi is a unique system since all bands crossing ÉF emerge from Dirac nodes. © 2020 American Physical Society.

Published

2020

14. Possible manifestations of the chiral anomaly and evidence for a magnetic field induced topological phase transition in the type-I Weyl semimetal TaAs

Author

Zhang, Q. R., primary, Zeng, B., additional, Chiu, Y. C., additional, Schönemann, R., additional, Memaran, S., additional, Zheng, W., additional, Rhodes, D., additional, Chen, K.-W., additional, Besara, T., additional, Sankar, R., additional, Chou, F., additional, McCandless, G. T., additional, Chan, J. Y., additional, Alidoust, N., additional, Xu, S.-Y., additional, Belopolski, I., additional, Hasan, M. Z., additional, Balakirev, F. F., additional, and Balicas, L., additional

Published

2019

15. Origin of the butterfly magnetoresistance in a Dirac nodal-line system

Author

Chiu, Y.-C., primary, Chen, K.-W., additional, Schönemann, R., additional, Quito, V. L., additional, Sur, S., additional, Zhou, Q., additional, Graf, D., additional, Kampert, E., additional, Förster, T., additional, Yang, K., additional, McCandless, G. T., additional, Chan, Julia Y., additional, Baumbach, R. E., additional, Johannes, M. D., additional, and Balicas, L., additional

Published

2019

16. Anomalous Metamagnetism in the Low Carrier Density Kondo Lattice YbRh3Si7

Author

Rai, Binod K., primary, Chikara, S., additional, Ding, Xiaxin, additional, Oswald, Iain W. H., additional, Schönemann, R., additional, Loganathan, V., additional, Hallas, A. M., additional, Cao, H. B., additional, Stavinoha, Macy, additional, Chen, T., additional, Man, Haoran, additional, Carr, Scott, additional, Singleton, John, additional, Zapf, Vivien, additional, Benavides, Katherine A., additional, Chan, Julia Y., additional, Zhang, Q. R., additional, Rhodes, D., additional, Chiu, Y. C., additional, Balicas, Luis, additional, Aczel, A. A., additional, Huang, Q., additional, Lynn, Jeffrey W., additional, Gaudet, J., additional, Sokolov, D. A., additional, Walker, H. C., additional, Adroja, D. T., additional, Dai, Pengcheng, additional, Nevidomskyy, Andriy H., additional, Huang, C.-L., additional, and Morosan, E., additional

Published

2018

17. Investigation of the superconducting gap structure in κ-(BEDT-TTF)2Cu(NCS)2 and κ-(BEDT-TTF)2Cu[N(CN)2]Br by means of thermal-conductivity measurements

Author

Kühlmorgen, S., Schönemann, R., Green, E. L., Müller, J., and Wosnitza, J.

Abstract

We report temperature-dependent thermal-conductivity, κ, measurements on the layered quasi-two-dimensional organic superconductors κ-(BEDT-TTF)2Cu(NCS)2 and κ-(BEDTTTF)2Cu[N(CN)2]Br down to 160 mK. The results for κ-(BEDT-TTF)2Cu(NCS)2 may be consistent with a nodal superconducting (SC) gap structure as indicated by a nonnegligible remnant linear contribution when κ /T α T2 is extrapolated to T = 0. For κ-(BEDT-TTF)2Cu[N(CN)2]Br, contrary to expectations, higher κ values are observed in the superconducting regime as compared to the normal, high-field state evidencing a dominant phonon contribution to κ in the superconducting state. The strong increase of κ in the normal state below Tc for both samples indicates strong electron–phonon scattering. Our results highlight the need for thermal-conductivity measurements performed down to significantly lower temperatures to determine the symmetry of the SC gap.

Published

2017

18. Bulk Fermi surface of the Weyl type-II semimetallic candidate γ -MoTe2

Author

Rhodes, D., Schönemann, R., Aryal, N., Zhou, Q., Zhang, Q. R., Kampert, E., Chiu, Y.-C., Lai, Y., Shimura, Y., Mccandless, G. T., Chan, J. Y., Paley, D. W., Lee, J., Finke, A. D., Ruff, J. P. C., Das, S., Manousakis, E., and Balicas, L.

Subjects

Condensed Matter::Superconductivity, Condensed Matter::Strongly Correlated Electrons

Abstract

The electronic structure of semimetallic transition-metal dichalcogenides, such as WTe2 and orthorhombic γ-MoTe2, are claimed to contain pairs of Weyl points or linearly touching electron and hole pockets associated with a nontrivial Chern number. For this reason, these compounds were recently claimed to conform to a new class, deemed type-II, of Weyl semimetallic systems. A series of angle-resolved photoemission experiments (ARPES) claim a broad agreem nt with these predictions detecting, for example, Fermi arcs at the surface of these crystals. We synthesized single crystals of semimetallic MoTe2 through a Te flux method to validate these predictions through measurements of its bulk Fermi surface (FS) via quantum oscillatory phenomena.We find that the superconducting transition temperature of γ-MoTe2 depends on disorder as quantified by the ratio between the room- and low-temperature resistivities, suggesting the possibility of an unconventional superconducting pairing symmetry. Similarly to WTe2, the magnetoresistivity of γ-MoTe2 does not saturate at high magnetic fields and can easily surpass 106%. Remarkably, the analysis of the de Haas–van Alphen (dHvA) signal superimposed onto the magnetic torque indicates that the geometry of its FS is markedly distinct from the calculated one. The dHvA signal also reveals that the FS is affected by the Zeeman effect precluding the extraction of the Berry phase. A direct comparison between the previous ARPES studies and density-functional-theory (DFT) calculations reveals a disagreement in the position of the valence bands relative to the Fermi level εF . Here, we show that a shift of the DFT valence bands relative to εF , in order to match the ARPES observations, and of the DFT electron bands to explain some of the observed dHvA frequencies, leads to a good agreement between the calculations and the angular dependence of the FS cross-sectional areas observed experimentally. However, this relative displacement between electron and hole bands eliminates their crossings and, therefore, the Weyl type-II points predicted for γ-MoTe2.

Published

2017

19. Detailed study of the Fermi surfaces of the type-II Dirac semimetallic candidates XTe2 ( X =Pd, Pt)

Author

Zheng, W., primary, Schönemann, R., additional, Aryal, N., additional, Zhou, Q., additional, Rhodes, D., additional, Chiu, Y.-C., additional, Chen, K.-W., additional, Kampert, E., additional, Förster, T., additional, Martin, T. J., additional, McCandless, G. T., additional, Chan, J. Y., additional, Manousakis, E., additional, and Balicas, L., additional

Published

2018

20. Physical properties of the candidate quantum spin-ice system Pr2Hf2O7

Author

Anand, V. K., Opherden, L., Xu, J., Adroja, D. T., Islam, A. T. M. N., Herrmannsdörfer, T., Hornung, J., Schönemann, R., Uhlarz, M., Walker, H. C., Casati, N, and Lake, B

Abstract

Physical properties of a pyrohafnate compound Pr2Hf2O7 have been investigated by ac magnetic susceptibility χac(T ), dc magnetic susceptibility χ(T ), isothermal magnetization M(H), and heat-capacity Cp(T )measurements on polycrystalline as well as single-crystal samples combined with high-resolution synchrotron x-ray diffraction (XRD) for structural characterization and inelastic neutron scattering (INS) to determine the crystal-field energy-level scheme and wave functions. Synchrotron XRD data confirm the ordered cubic pyrochlore (Fd¯3m) structure without any noticeable site mixing or oxygen deficiency. No clear evidence of long-range magnetic ordering is observed down to 90 mK, however the χac(T ) evinces slow spin dynamics revealed by a frequency dependent broad peak associated with spin freezing. The INS data reveal the expected five well-defined magnetic excitations due to crystal-field splitting of the J = 4 ground-state multiplet of the Pr3+. The crystal-field parameters and ground-state wave function of Pr3+ have been determined. The Ising anisotropic nature of the magnetic ground state is inferred from the INS as well as χ(T) and M(H) data. Together these properties make Pr2Hf2O7 a candidate compound for quantum spin-ice behavior.

Published

2016

21. Bulk Fermi surface of the Weyl type-II semimetallic candidate γ−MoTe2

Author

Rhodes, D., primary, Schönemann, R., additional, Aryal, N., additional, Zhou, Q., additional, Zhang, Q. R., additional, Kampert, E., additional, Chiu, Y.-C., additional, Lai, Y., additional, Shimura, Y., additional, McCandless, G. T., additional, Chan, J. Y., additional, Paley, D. W., additional, Lee, J., additional, Finke, A. D., additional, Ruff, J. P. C., additional, Das, S., additional, Manousakis, E., additional, and Balicas, L., additional

Published

2017

22. Fermi surface of the Weyl type-II metallic candidate WP2

Author

Schönemann, R., primary, Aryal, N., additional, Zhou, Q., additional, Chiu, Y.-C., additional, Chen, K.-W., additional, Martin, T. J., additional, McCandless, G. T., additional, Chan, J. Y., additional, Manousakis, E., additional, and Balicas, L., additional

Published

2017

23. Investigation of the superconducting gap structure in κ-(BEDT-TTF)2Cu(NCS)2 and κ-(BEDT-TTF)2Cu[N(CN)2]Br by means of thermal-conductivity measurements

Author

Kühlmorgen, S, primary, Schönemann, R, additional, Green, E L, additional, Müller, J, additional, and Wosnitza, J, additional

Published

2017

24. Magnetoelectricity of the spin-ice compound Ho2Ti2O7

Author

Herrmannsdörfer, T., Schönemann, R., Green, E., Opherden, L., Skrotzki, R., Wang, Z., Kaneko, H., Suzuki, H., and Wosnitza, J.

Published

2015

25. Search for the superconducting gap structure in κ-(BEDT-TTF)2X by use of thermal-conductivity measurements

Author

Green, E. L., Kühlmorgen, S., Schönemann, R., Müller, J., and Wosnitza, J.

Abstract

κ-ET2X, where ET is bis(ethylenedithio)-tetrathiafulvalene (BEDT-TTF), is a family of organic charge transfer salts consisting of conducting ET layers interspersed between insulating X- anions. For almost two decades it has been debated whether these quasi-two-dimensional (Q2D) superconductors are conventional BCS-type or unconventional d-wave similar to the cuprates. A variety of measurements techniques, including NMR, specific heat, and STM, have been employed, but the results do not concur in regards to the pairing symmetry. To investigate this further, thermal conductivity measurements were performed on single crystal X = Cu[N(CN)2]Br and Cu(NCS)2, both of which undergo superconducting transitions at Tc ≈ 11.5 K and 9.5 K, respectively. In both samples, a relatively large peak in the temperature dependence appears just below Tc which is due to the opening of a superconducting gap and is indicative of high-quality samples. Furthermore, at zero magnetic field, the phonon contribution dominates in both samples at low temperatures (down to 150 mK), as evidenced by a T3 behavior, with no significant remnant electronic contribution in X = Cu[N(CN)2]Br and only a small contribution in X = Cu(NCS)2. Interestingly, when a magnetic field of μoH = 14 T is applied parallel to the conducting layers, the thermal conductivity is smaller in X = Cu[N(CN)2]Br compared to the zero field data, but is significantly larger in X = Cu(NCS)2. Our results demonstrate the importance of electron-phonon scattering in these Q2D superconductors.

Published

2015

26. Critical exponents and intrinsic broadening of the field-induced transition in NiCl2 · 4SC(NH2)2

Author

Wulf, E., Hüvonen, D., Schönemann, R., Kühne, H., Herrmannsdörfer, T., Glavatskyy, I., Gerischer, S., Kiefer, K., Gvasaliya, S., and Zheludev, A.

Abstract

The field-induced ordering transition in the quantum spin system NiCl2 · 4SC(NH2)2 is studied by means of neutron diffraction, ac magnetometry, and relaxation calorimetry. The interpretation of the data is strongly influenced by a finite distribution of transition fields in the samples, which was present but disregarded in previous studies. Taking this effect into account, we find that the order-parameter critical exponent is inconsistent with the BEC universality class even at temperatures below 100 mK. All results are discussed in comparison with previous measurements and with recent similar studies of disordered Ni(Cl1−xBrx)2 · 4SC(NH2)2.

Published

2015

27. Superconductivity and ferromagnetism in nanostructured Bi3Ni

Author

Schönemann, R., Herrmannsdörfer, T., Kühne, H., Zhang, Z., Naumann, M., Skrotzki, R., Kaiser, M., Heise, M., Ruck, M., Kummer, K., Graf, D., and Wosnitza, J.

Abstract

es hat kein Abstract vorgelegen

Published

2015

28. Physical realization of a quantum spin liquid based on a complex frustration mechanism

Author

Balz, C., Lake, B., Reuther, J., Luetkens, H., Schönemann, R., Herrmannsdörfer, T., Singh, Y., Nazmul Islam, A. T. M., Wheeler, E. M., Rodriguez-Rivera, J. A., Guidi, T., Simeoni, G. G., Baines, C., Ryll, H., Balz, C., Lake, B., Reuther, J., Luetkens, H., Schönemann, R., Herrmannsdörfer, T., Singh, Y., Nazmul Islam, A. T. M., Wheeler, E. M., Rodriguez-Rivera, J. A., Guidi, T., Simeoni, G. G., Baines, C., and Ryll, H.

Abstract

Unlike conventional magnets where the magnetic moments are partially or completely static in the ground state, in a quantum spin liquid they remain in collective motion down to the lowest temperatures. The importance of this state is that it is coherent and highly entangled without breaking local symmetries. In the case of magnets with isotropic interactions, spin-liquid behaviour is sought in simple lattices with antiferromagnetic interactions that favour antiparallel alignments of the magnetic moments and are incompatible with the lattice geometries. Despite an extensive search, experimental realizations remain very few. Here we investigate the novel, unexplored magnet Ca10Cr7O28, which has a complex Hamiltonian consisting of several different isotropic interactions and where the ferromagnetic couplings are stronger than the antiferromagnetic ones. We show both experimentally and theoretically that it displays all the features expected of a quantum spin liquid. Thus spin-liquid behaviour in isotropic magnets is not restricted to the simple idealized models currently investigated, but can be compatible with complex structures and ferromagnetic interactions.

Published

2016

29. Full access to nanoscale Bismuth-Palladium intermetallics by low-temperature syntheses

Author

Heise, M., Chang, J.-H., Schönemann, R., Herrmannsdörfer, T., Wosnitza, J., and Ruck, M.

Abstract

The microwave-assisted polyol process was applied and modified to synthesize phase-pure micro- or nanocrystalline samples of all intermetallic phases in the bismuth−palladium system. Reaction temperatures range between 170 and 240 °C, whereas conventional syntheses from melt necessitate 500 to 1000 °C. Reaction times of few minutes up to 1 h are sufficient. Although not stable at the temperature of synthesis, high-temperature phases are accessible as well. Differences in the redox potentials of the two metals have effectively been compensated by adding auxiliaries such as oleylamine, oleic acid, and potassium hydroxide. The samples were characterized by X-ray powder diffraction, scanning electron microscopy, and energy-dispersive electron spectroscopy. Magnetic properties and electrical conductivity of the nanocrystalline samples were measured. The high temperature compound γ-BiPd showed superconductivity with Tc = 3.2 K. Nanocrystalline nc-Bi2Pd5 revealed an unusual temperature dependence of the electrical conductivity indicating an electronic phase transition at about 230 K. The electronic band structures of γ-BiPd, Bi2Pd5, Bi12Pd31, and BiPd3 were calculated including spin−orbit coupling.

Published

2014

30. Magnetic-field-dependent reentrant superconductivity in Ga-implanted Si

Author

Skrotzki, R., Herrmannsdörfer, T., Schönemann, R., Heera, V., Fiedler, J., Kampert, E., Wolff-Fabris, F., Förster, T., Völskow, A., Mücklich, A., Schmidt, B., Skorupa, W., Helm, M., and Wosnitza, J.

Published

2014

31. Superconductivity and ferromagnetism in nanostructured Bi3Ni

Author

Schönemann, R., Herrmannsdörfer, T., Naumann, M., Skrotzki, R., Kaiser, M., Heise, M., Ruck, M., Kummer, K., Graf, D., and Wosnitza, J.

Abstract

es hat kein Abstract vorgelegen

Published

2014

32. Physical properties of the candidate quantum spin-ice systemPr2Hf2O7

Author

Anand, V. K., primary, Opherden, L., additional, Xu, J., additional, Adroja, D. T., additional, Islam, A. T. M. N., additional, Herrmannsdörfer, T., additional, Hornung, J., additional, Schönemann, R., additional, Uhlarz, M., additional, Walker, H. C., additional, Casati, N., additional, and Lake, B., additional

Published

2016

33. Hall effect within the colossal magnetoresistive semimetallic state ofMoTe2

Author

Zhou, Qiong, primary, Rhodes, D., additional, Zhang, Q. R., additional, Tang, S., additional, Schönemann, R., additional, and Balicas, L., additional

Published

2016

34. Investigation of the Magnetic Properties in the Pyrochlore Pr2Sn2O7

Author

Green, E. L., Herrmannsdörfer, T., Schönemann, R., Wang, Z., Uhlarz, M., Wosnitza, J., and Zhou, H. D.

Published

2013

35. Superconductivity in Ge and Si via Ga-ion implantation

Author

Skrotzki, R., Herrmannsdörfer, T., Schönemann, R., Heera, V., Fiedler, J., Kampert, E., Wolff-Fabris, F., Philipp, P., Bischoff, L., Voelskow, M., Mücklich, A., Schmidt, B., Skorupa, W., Helm, M., and Wosnitza, J.

Abstract

es hat kein Abstract vorgelegen

Published

2013

36. Investigations of the Magnetic Properties in the Pyrochlore Ho2Ti2O7

Author

Schönemann, R., Herrmannsdörfer, T., Green, E. L., Skrotzki, R., Wang, Z., Kaneko, H., Suzuki, H., and Wosnitza, J.

Abstract

Pyrochlore compounds such as R2Ti2O7 (where R is Ho or Dy) have an highly degenerate ground state where the R3+ moments obey the "ice rules". This provides access to study extraordinary physical phenomena, like the formation of magnetic monopoles. Recent publications evidence monopoles which can be probed using high frequency (adiabatic) susceptibility measurements [1]. We performed ac susceptibility measurements on a single-crystal Ho2Ti2O7 sample at low temperatures down to 30 mK and magnetic fields up to 14 T. Based on isothermal frequency sweeps we were able to determine spin relaxation rates. Both the real and imaginary parts of the temperature-dependent magnetic susceptibility measurements show the spins freezing below 1 K and provide insight into the magnetic-monopole density.

Published

2013

37. Superconductivity and magneto-resistance oscillations in amorphous Ga films

Author

Skrotzki, R., Herrmannsdörfer, T., Schönemann, R., Heera, V., Fiedler, J., Kampert, E., Wolf-Fabris, F., Philipp, P., Bischoff, L., Voelskow, M., Mücklich, A., Schmidt, B., Skorupa, M., Helm, M., and Wosnitza, J.

Published

2013

38. Coexistence of ferromagnetism and superconductivity in single-phase Bi3Ni nanostructures

Author

Herrmannsdörfer, T., Skrotzki, R., Schönemann, R., Wosnitza, J., Köhler, D., Boldt, R., and Ruck, M.

Published

2011

39. Critical exponents and intrinsic broadening of the field-induced transition inNiCl2·4SC(NH2)2

Author

Wulf, E., primary, Hüvonen, D., additional, Schönemann, R., additional, Kühne, H., additional, Herrmannsdörfer, T., additional, Glavatskyy, I., additional, Gerischer, S., additional, Kiefer, K., additional, Gvasaliya, S., additional, and Zheludev, A., additional

Published

2015

40. On the low-field Hall coefficient of graphite

Author

Esquinazi, P., primary, Krüger, J., additional, Barzola-Quiquia, J., additional, Schönemann, R., additional, Herrmannsdörfer, T., additional, and García, N., additional

Published

2014

41. On-chip superconductivity above 7 K in microstructured 10 nm thin Ga films embedded in Si wafers

Author

Skrotzki, R., Herrmannsdörfer, T., Heera, V., Fiedler, J., Schönemann, R., Philipp, P., Bischoff, L., Voelskow, M., Mücklich, A., Schmidt, B., Skorupa, W., Helm, M., Wosnitza, J., Skrotzki, R., Herrmannsdörfer, T., Heera, V., Fiedler, J., Schönemann, R., Philipp, P., Bischoff, L., Voelskow, M., Mücklich, A., Schmidt, B., Skorupa, W., Helm, M., and Wosnitza, J.

Abstract

Initiated by the finding of doping-induced ambient-pressure superconductivity in classic group-IV semiconductors, in particular our investigation on Ga-doped Germanium [1], we have succeeded in preparing an even more promising candidate for superconducting onchip application [2]. Ion implantation has been utilized to introduce a high dose of Ga into silicon wafers capped by 30 nm SiO2. Ga segregation underneath the cover was stimulated by subsequent rapid thermal annealing in a narrow time and temperature window. Extended structural investigations by means of XTEM, EDX, RBS/C, and SIMS confirm a reproducible formation of 10 nm thin amorphous Ga-rich layers. In the normal state these layers reveal a sheet resistance with a negative temperature derivative and an absolute value close to the quantum resistance which is about 6 kOhm. The superconducting onset temperature accounts for up to 10 K while a zero-resistance state coincides with diamagnetic screening below 5 K verified by means of resistivity and dc magnetization measurements. Further, superconductivity remains stable up to remarkable high magnetic fields of more than 8 Tesla and exhibits a distinct critical-field anisotropy manifesting its thin-film character. Homogeneity and scale-independent behavior down to 3 micron have been proven by lateral microstructuring via photolithography rendering critical-current densities higher than 50 kA/cm2. Recently, focussed-ion beam technique has been implemented in order to create Josephson junctions - key elements of the prospective first ever built gallium SQUID.

Published

2012

42. Coexistence of ferromagnetism and superconductivity in single-phase Bi3Ni nanostructures

Author

Herrmannsdörfer, T., Skrotzki, R., Schönemann, R., Wosnitza, J., Köhler, D., Boldt, R., Ruck, M., Herrmannsdörfer, T., Skrotzki, R., Schönemann, R., Wosnitza, J., Köhler, D., Boldt, R., and Ruck, M.

Published

2012

43. Magnetic Au Nanoparticles on Archaeal S-layer Ghosts as Templates

Author

Selenska-Pobell, S., Reitz, T., Schönemann, R., Herrmannsdörfer, T., Merroun, M., Geißler, A., Bartolomé, J., Bartolomé, F., Garcia, L. M., Wilhelm, F., Rogalev, A., Selenska-Pobell, S., Reitz, T., Schönemann, R., Herrmannsdörfer, T., Merroun, M., Geißler, A., Bartolomé, J., Bartolomé, F., Garcia, L. M., Wilhelm, F., and Rogalev, A.

Abstract

Gold nanoparticles with a size of 2.5 nm were produced using the SlaA-layer ghosts of the archaeon Sulfolobus acidocaldarius as a template. These archaeal bio-Au nanoparticles differ significantly from those of the bacterial bio-Au nanoparticles produced on the S-layer of Bacillus sphaericus. The archaeal Au nanoparticles consist exclusively of Au(0), while the bacterial ones represent a mixture of Au(0) and Au(III). The most impressive feature of the archaeal Au nanoparticles is that they are paramagnetic, in contrast to the bacterial ones and also to bulk gold. As demonstrated by SQUID magnetometry, the archaeal bio-Au possess an unusually large magnetic moment of about 0.1 µB/Au atom. HR-TEM combined with EDX analysis revealed that the archaeal Au nanoparticles are linked to sulfur atoms. The latter originate from the thiol groups of the cystein amino acid residues which are characteristic for the SlaA-layer of S. acidocaldarius but absent in the S-layer of B. sphaericus.

Published

2011

44. Strong Paramagnetism of Gold Nanoparticles Deposited on aSulfolobus acidocaldariusSLayer

Author

Bartolomé, J., primary, Bartolomé, F., additional, García, L. M., additional, Figueroa, A. I., additional, Repollés, A., additional, Martínez-Pérez, M. J., additional, Luis, F., additional, Magén, C., additional, Selenska-Pobell, S., additional, Pobell, F., additional, Reitz, T., additional, Schönemann, R., additional, Herrmannsdörfer, T., additional, Merroun, M., additional, Geissler, A., additional, Wilhelm, F., additional, and Rogalev, A., additional

Published

2012

45. Automated disruption management for urban railway systems under the considerations of energy efficiency

Author

Adamek, J., primary and Schönemann, R., additional

Published

2012

46. Bulk Fermi surface of the Weyl type-II semimetallic candidate γ - MoTe2.

Author

Rhodes, D., Schönemann, R., Aryal, N., Zhou, Q., Zhang, Q. R., Kampert, E., Chiu, Y.-C., Lai, Y., Shimura, Y., McCandless, G. T., Chan, J. Y., Paley, D. W., Lee, J., Finke, A. D., Ruff, J. P. C., Das, S., Manousakis, E., and Balicas, L.

Subjects

*ELECTRONIC structure, *SEMIMETALS, *FERMI surfaces

Abstract

The electronic structure of semimetallic transition-metal dichalcogenides, such as WTe 2 and orthorhombic γ - MoTe2, are claimed to contain pairs of Weyl points or linearly touching electron and hole pockets associated with a nontrivial Chern number. For this reason, these compounds were recently claimed to conform to a new class, deemed type-II, of Weyl semimetallic systems. A series of angle-resolved photoemission experiments (ARPES) claim a broad agreement with these predictions detecting, for example, Fermi arcs at the surface of these crystals. We synthesized single crystals of semimetallic MoTe2 through a Te flux method to validate these predictions through measurements of its bulk Fermi surface (FS) via quantum oscillatory phenomena. We find that the superconducting transition temperature of γ - MoTe2 depends on disorder as quantified by the ratio between the room- and low-temperature resistivities, suggesting the possibility of an unconventional superconducting pairing symmetry. Similarly to WTe2, the magnetoresistivity of γ - MoTe2 does not saturate at high magnetic fields and can easily surpass 106%. Remarkably, the analysis of the de Haas-van Alphen (dHvA) signal superimposed onto the magnetic torque indicates that the geometry of its FS is markedly distinct from the calculated one. The dHvA signal also reveals that the FS is affected by the Zeeman effect precluding the extraction of the Berry phase. A direct comparison between the previous ARPES studies and density-functional-theory (DFT) calculations reveals a disagreement in the position of the valence bands relative to the Fermi level ɛF. Here, we show that a shift of the DFT valence bands relative to ɛF, in order to match the ARPES observations, and of the DFT electron bands to explain some of the observed dHvA frequencies, leads to a good agreement between the calculations and the angular dependence of the FS cross-sectional areas observed experimentally. However, this relative displacement between electron and hole bands eliminates their crossings and, therefore, the Weyl type-II points predicted for γ - MoTe2. [ABSTRACT FROM AUTHOR]

Published

2017

47. Fermi surface of the Weyl type-II metallic candidate WP2.

Author

Schönemann, R., Aryal, N., Zhou, Q., Chiu, Y.-C., Chen, K.-W., Martin, T. J., McCandless, G. T., Chan, J. Y., Manousakis, E., and Balicas, L.

Subjects

*FERMI surfaces, *WEYL fermions, *TUNGSTEN compounds

Abstract

Weyl type-II fermions are massless quasiparticles that obey the Weyl equation and which are predicted to occur at the boundary between electron and hole pockets in certain semimetals, i.e., the (W,Mo)(Te,P)2 compounds. Here, we present a study of the Fermi surface of WP2 via the Shubnikov-de Haas (SdH) effect. Compared to other semimetals, WP2 exhibits a very low residual resistivity, i.e., ρ0≃10nΩcm, which leads to perhaps the largest nonsaturating magnetoresistivity [ρ(H)] reported for any compound. For the samples displaying the smallest ρ0,ρ(H) is observed to increase by a factor of 2.5×107% under μ0H=35 T at T=0.35 K. The angular dependence of the SdH frequencies is found to be in excellent agreement with the first-principles calculations when the electron and hole bands are shifted by 30 meV with respect to the Fermi level. This small discrepancy could have implications for the predicted topological character of this compound. [ABSTRACT FROM AUTHOR]

Published

2017

48. Critical exponents and intrinsic broadening of the field-induced transition in NiCl2 · 4SC(NH2)2.

Author

Wulf, E., Hüvonen, D., Schönemann, R., Kühne, H., Herrmannsdörfer, T., Glavatskyy, I., Gerischer, S., Kiefer, K., Gvasaliya, S., and Zheludev, A.

Subjects

*MAGNETOMETRY in archaeology, *CALORIMETRY, *TRANSITION flow, *TRANSITION metals, *DISTRIBUTIVE lattices

Abstract

The field-induced ordering transition in the quantum spin system NiCl2 · 4SC(NH2)2 is studied by means of neutron diffraction, ac magnetometry, and relaxation calorimetry. The interpretation of the data is strongly influenced by a finite distribution of transition fields in the samples, which was present but disregarded in previous studies. Taking this effect into account, we find that the order-parameter critical exponent is inconsistent with the BEC universality class even at temperatures below 100 mK. All results are discussed in comparison with previous measurements and with recent similar studies of disordered Ni(Cl1-xBrx)2 · 4SC(NH2)2. [ABSTRACT FROM AUTHOR]

Published

2015

49. Strong Paramagnetism of Gold Nanoparticles Deposited on a Sulfolobus acidocaldarius S Layer.

Author

Bartolomé, J., Bartolomé, F., García, L. M., Figueroa, A. I., Repollés, A., Martínez-Pérez, M. J., Luis, F., Magén, C., Selenska-Pobell, S., Pobell, F., Reitz, T., Schönemann, R., Herrmannsdörfer, T., Merroun, M., Geissler, A., Wilhelm, F., and Rogalev, A.

Subjects

*MAGNETIC properties, *GOLD nanoparticles, *CIRCULAR dichroism, *SUPERCONDUCTORS, *PARAMAGNETISM

Abstract

Magnetic properties of Au nanoparticles deposited on an archaeal S layer are reported. X-ray magnetic circular dichroism and superconducting quantum interference device magnetometries demonstrate that the particles are strongly paramagnetic, without any indication of magnetic blocking down to 16 mK. The average magnetic moment per particle is Mpart=2.36(7) μB. This contribution originates at the particle's Au 5d band, in which an increased number of holes with respect to the bulk value is observed. The magnetic moment per Au atom is 25 times larger than any measured in other Au nanoparticles or any other configurations up to date. [ABSTRACT FROM AUTHOR]

Published

2012

50. Physical properties of the candidate quantum spin-ice system Pr2Hf2O7.

Author

Anand, V. K., Opherden, L., Xu, J., Adroja, D. T., Islam, A. T. M. N., Herrmannsdörfer, T., Hornung, J., Schönemann, R., Uhlarz, M., Walker, H. C., Casati, N., and Lake, B.

Subjects

*QUANTUM spin Hall effect, *MAGNETIC susceptibility, *MAGNETIZATION, *HEAT capacity, *CRYSTAL structure

Abstract

Physical properties of a pyrohafnate compound Pr2Hf2O7 have been investigated by ac magnetic susceptibility Xac(T), dc magnetic susceptibility X(T), isothermal magnetization M(H), and heat-capacity Cp(T) measurements on polycrystalline as well as single-crystal samples combined with high-resolution synchrotron x-ray diffraction (XRD) for structural characterization and inelastic neutron scattering (INS) to determine the crystal-field energy-level scheme and wave functions. Synchrotron XRD data confirm the ordered cubic pyrochlore (Fd3m) structure without any noticeable site mixing or oxygen deficiency. No clear evidence of long-range magnetic ordering is observed down to 90 mK, however the Xac(T) evinces slow spin dynamics revealed by a frequency dependent broad peak associated with spin freezing. The INS data reveal the expected five well-defined magnetic excitations due to crystal-field splitting of the J=4 ground-state multiplet of the Pr3+. The crystal-field parameters and ground-state wave function of Pr3+ have been determined. The Ising anisotropic nature of the magnetic ground state is inferred from the INS as well as X(T) and M(H) data. Together these properties make Pr2Hf2O7 a candidate compound for quantum spin-ice behavior. [ABSTRACT FROM AUTHOR]

Published

2016