Your search keyword '"Taufour, V."' showing total 200 results

1. Non-Fermi-liquid behavior in a ferromagnetic heavy fermion system CeTi$_{1-x}$V$_{x}$Ge$_{3}$

Author

Lin, R. -Z., Jin, H., Klavins, P., Chen, W. -T., Chang, Y. -Y., Chung, C. -H., Taufour, V., and Huang, C. -L.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

An investigation of the thermodynamic and electrical transport properties of the isoelectronic chemical substitution series CeTi$_{1-x}$V$_{x}$Ge$_{3}$ (CTVG) single crystals is reported. As x increases, the ferromagnetic (FM) transition temperature is suppressed, reaching absolute zero at the critical concentration x = 0.4, where a non-Fermi-liquid low-temperature specific heat and electrical resistivity, as well as the hyperscaling of specific heat and magnetization are found. Our study clearly identifies an FM quantum critical point (QCP) in CTVG. The obtained critical exponents suggest that CTVG falls in the preasymptotic region of the disorder-tuned FM QCP predicted by the Belitz-Kirkpatrick-Vojta theory.

Published

2024

2. Absence of strong magnetic fluctuations or interactions in the normal state of LaNiGa2

Author

Sherpa, P, Vinograd, I, Shi, Y, Sreedhar, SA, Chaffey, C, Kissikov, T, Jung, M-C, Botana, AS, Dioguardi, AP, Yamamoto, R, Hirata, M, Conti, G, Nemsak, S, Badger, JR, Klavins, P, Vishik, I, Taufour, V, and Curro, NJ

Subjects

Physical Sciences, Condensed Matter Physics, Chemical sciences, Engineering, Physical sciences

Abstract

We present nuclear magnetic (NMR) and quadrupole (NQR) resonance and magnetization data in the normal state of the topological crystalline superconductor LaNiGa2. We find no evidence of significant magnetic fluctuations or enhanced paramagnetism. These results suggest that the time-reversal symmetry breaking previously reported in the superconducting state of this material is not driven by strong electron correlations.

Published

2024

3. Electron irradiation reveals robust fully gapped superconductivity in LaNiGa$_{2}$

Author

Ghimire, S., Joshi, K. R., Krenkel, E. H., Tanatar, M. A., Shi, Yunshu, Konczykowski, M., Grasset, R., Taufour, V., Orth, P. P., Scheurer, M. S., and Prozorov, R.

Subjects

Condensed Matter - Superconductivity

Abstract

The effects of 2.5 MeV electron irradiation were studied in the superconducting phase of single crystals of LaNiGa$_2$, using measurements of electrical transport and radio-frequency magnetic susceptibility. The London penetration depth is found to vary exponentially with temperature, suggesting a fully gapped Fermi surface. The inferred superfluid density is close to that of a single-gap weak-coupling isotropic $s-$wave superconductor. Superconductivity is extremely robust against nonmagnetic point-like disorder induced by electron irradiation. Our results place strong constraints on the previously proposed triplet pairing state by requiring fine-tuned impurity scattering amplitudes and are most naturally explained by a sign-preserving, weak-coupling, and approximately momentum independent singlet superconducting state in LaNiGa$_2$, which does not break time-reversal symmetry. We discuss how our findings could be reconciled with previous measurements indicating magnetic moments in the superconducting phase.

Published

2023

4. Absence of strong magnetic fluctuations or interactions in the normal state of LaNiGa$_2$

Author

Sherpa, P., Vinograd, I., Shi, Y., Sreedhar, S. A., Chaffey, C., Kissikov, T., Jung, M. -C., Bontana, A. S., Dioguardi, A. P., Yamamoto, R., Hirata, M., Conti, G., Nemsak, S., Badger, J. R., Klavins, P., Vishik, I., Taufour, V., and Curro, N. J.

Subjects

Condensed Matter - Superconductivity

Abstract

We present nuclear magnetic (NMR) and qudrupole (NQR) resonance and magnetization data in the normal state of the topological crystalline superconductor LaNiGa$_2$. We find no evidence of magnetic fluctuations or enhanced paramagnetism. These results suggest that the time-reversal symmetry breaking previously reported in the superconducting state of this material is not driven by strong electron correlations., Comment: 9 pages, 7 figures

Published

2023

5. Gap structure of the non-symmorphic superconductor LaNiGa2 probed by muSR

Author

Sundar, Shyam, Yakovlev, M., Azari, N., Abedi, M., Broun, D. M., Ozdemir, H. U., Dunsiger, S. R., Zackaria, D., Bowman, H., Klavins, P., Shi, Y., Taufour, V., and Sonier, J. E.

Subjects

Condensed Matter - Superconductivity

Abstract

We report muon spin rotation (muSR) measurements of the temperature dependence of the absolute value of the magnetic penetration depth and the magnetic field dependence of the vortex core size in the mixed state of the non-symmorphic superconductor LaNiGa2. The temperature dependence of the normalized superfluid density is shown to be well described by a two-band model with strong interband coupling. Consistent with a strong coupling of the superconducting condensates in two different bands, we show that the field dependence of the vortex core size resembles that of a single-band superconductor. Our results lend support to the proposal that LaNiGa2 is a fully-gapped, internally antisymmetric nonunitary spin-triplet superconductor., Comment: 11 pages, 7 figures

Published

2023

6. Magnetic structure and Kondo lattice behavior in CeVGe$_3$: an NMR and neutron scattering study

Author

Chaffey, C., Wu, H. C., Jin, Hanshang, Sherpa, P., Klavins, Peter, Avdeev, M., Aji, S., Shimodate, R., Nawa, K., Sato, T. J., Taufour, V., and Curro, N. J.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We present nuclear magnetic resonance (NMR), neutron diffraction, magnetization, and transport measurements on a single crystal and powder of CeVGe$_3$. This material exhibits heavy fermion behavior at low temperature, accompanied by antiferromagnetic (AFM) order below 5.8 K. We find that the magnetic structure is incommensurate with AFM helical structure, characterized by a magnetic modulated propagation vector of $(0, 0, 0.49)$ with in-plane moments rotating around the $c$-axis. The NMR Knight shift and spin-lattice relaxation rate reveal a coherence temperature $T^*\sim 15$ K, and the presence of significant antiferromagnetic fluctuations reminiscent of the archetypical heavy fermion compound CeRhIn$_5$. We further identify a metamagnetic transition above $H_m\sim 2.5$ T for magnetic fields perpendicular to $c$. We speculate that the magnetic structure in this field-induced phase consists of a superposition with both ferromagnetic and antiferromagnetic components, which is consistent with the NMR spectrum in this region of the phase diagram. Our results thus indicate that CeVGe$_3$ is a hexagonal structure analog to tetragonal CeRhIn$_5$., Comment: 13 pages, 11 figures

Published

2023

7. Electronic Stripe Patterns Near the Fermi Level of Tetragonal Fe(Se,S)

Author

Walker, M., Scott, K., Boyle, T. J., Byland, J. K., Bötzel, S., Zhao, Z., Day, R. P., Zhdanovich, S., Gorovikov, S., Pedersen, T. M., Klavins, P., Damascelli, A., Eremin, I. M., Gozar, A., Taufour, V., and Neto, E. H. da Silva

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

FeSe$_{1-x}$S$_x$ remains one of the most enigmatic systems of Fe-based superconductors. While much is known about the orthorhombic parent compound, FeSe, the tetragonal samples, FeSe$_{1-x}$S$_x$ with x>0.17, remain relatively unexplored. Here, we provide an in-depth investigation of the electronic states of tetragonal FeSe$_{0.81}$S$_{0.19}$, using scanning tunneling microscopy and spectroscopy (STM/S) measurements, supported by angle-resolved photoemission spectroscopy (ARPES) and theoretical modeling. We demonstrate that by analyzing modulations of the local density of states (LDOS) near and away from Fe vacancy defects separately, we can identify quasiparticle interference (QPI) signals originating from multiple regions of the Brillouin zone, including the bands at the M and A points. We also observe that QPI signals coexist with a much stronger LDOS modulation for states near the Fermi level whose period is independent of energy. Our measurements further reveal that this strong pattern appears in the STS measurements as short range stripe patterns that are locally two-fold symmetric. Since these stripe patterns coexist with four-fold symmetric QPI around Fe-vacancies, the origin of their local two-fold symmetry must be distinct from that of nematic states in orthorhombic samples. To further understand these stripe patterns, we explore several aspects related to them, such as the role of S and Fe vacancy defects, and whether they can be explained by QPI. We consider the possibility that the observed stripe patterns may represent incipient charge order correlations, similar to those observed in the cuprates.

Published

2023

8. Effects of magnetic and non-magnetic doping on the vortex lattice in MgB$_2$

Author

Louden, E. R., Manni, S., Van Zandt, J. E., Leishman, A. W. D., Taufour, V., Bud'ko, S. L., DeBeer-Schmitt, L., Honecker, D., Dewhurst, C. D., Canfield, P. C., and Eskildsen, M. R.

Subjects

Condensed Matter - Superconductivity

Abstract

Using small-angle neutron scattering we have studied the vortex lattice in superconducting MgB$_2$ with the magnetic field applied along the $c$-axis, doped with either manganese or carbon to achieve a similar suppression of the critical temperature. For Mn-doping, the vortex lattice phase diagram remains qualitatively similar to that of pure MgB$_2$, undergoing a field-and temperature-driven $30^{\circ}$ rotation transition, indicating only a modest effect on the vortex-vortex interaction. In contrast, the vortex lattice rotation transition is completely suppressed in the C-doped case, likely due to a change in the electronic structure which affects the two-band/two-gap nature of superconductivity in MgB2. The vortex lattice longitudinal correlation length shows the opposite behavior, remaining roughly unchanged between pure and C-doped MgB$_2$ while it is significantly reduced in the Mn-doped case. However, the extensive vortex lattice metastability and related activated behavior, observed in conjunction with the vortex lattice transition in pure MgB$_2$, is also seen in the Mn doped sample. This shows that the vortex lattice disordering is not associated with a substantially increased vortex pinning., Comment: To appear in the Journal of Applied Crystallography for the special issue "Magnetic Small-Angle Neutron Scattering - from nanoscale magnetism to long-range magnetic structures"

Published

2022

9. Magnetic properties of the itinerant ferromagnet LaCrGe3 under pressure studied by 139La NMR

Author

Rana, K., Kotegawa, H., Ullah, R. R., Gati, E., Bud'ko, S. L., Canfield, P. C., Tou, H., Taufour, V., and Furukawa, Y.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

$^{139}$La nuclear magnetic resonance (NMR) measurements under pressure ($p = 0-2.64$ GPa) have been carried out to investigate the static and dynamic magnetic properties of the itinerant ferromagnet LaCrGe$_3$. $^{139}$La-NMR spectra for all measured pressures in the ferromagnetically ordered state show a large shift due to the internal field induction $|$$B_{\rm int}$$|$ $\sim$ 4 T at the La site produced by Cr ordered moments. The change in $B_{\rm int}$ by less than 5\% with $p$ up to 2.64~GPa indicates that the Cr 3$d$ moments are robust under pressure. The temperature dependence of NMR shift and $B_{\rm int}$ suggest that the ferromagnetic order develops below $\sim$ 50~K under higher pressures in a magnetic field of $\sim$ 7.2 T. Based on the analysis of NMR data using the self-consistent-renormalization (SCR) theory, the spin fluctuations in the paramagnetic state well above $T_{\rm C}$ are revealed to be three dimensional ferromagnetic throughout the measured $p$ region., Comment: 9 pages, 6 figures, accepted for publication in Phys. Rev. B. arXiv admin note: text overlap with arXiv:1906.00249

Published

2021

10. Inhomogeneous Knight shift in vortex cores of superconducting FeSe

Author

Vinograd, I., Edwards, S. P., Wang, Z., Kissikov, T., Byland, J. K., Badger, J. R., Taufour, V., and Curro, N. J.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We report $^{77}$Se NMR data in the normal and superconducting states of a single crystal of FeSe for several different field orientations. The Knight shift is suppressed in the superconducting state for in-plane fields, but does not vanish at zero temperature. For fields oriented out of the plane, little or no reduction is observed below $T_c$. These results reflect spin-singlet pairing emerging from a nematic state with large orbital susceptibility and spin-orbit coupling. The spectra and spin-relaxation rate data reveal electronic inhomogeneity that is enhanced in the superconducting state, possibly arising from enhanced density of states in the vortex cores. Despite the spin polarization of these states, there is no evidence for antiferromagnetic fluctuations., Comment: 6 pages, 4 figures

Published

2021

11. Pressure-induced suppression of ferromagnetism in the itinerant ferromagnet LaCrSb$_3$

Author

Brubaker, Z. E., Harvey, J. S., Badger, J. R., Ullah, R. R., Campbell, D. J., Xiao, Y., Chow, P., Kenney-Benson, C., Smith, J. S., Reynolds, C., Paglione, J., Zieve, R. J., Jeffries, J. R., and Taufour, V.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We have performed an extensive pressure-dependent structural, spectroscopic, and electrical transport study of LaCrSb$_3$. The ferromagnetic phase (T$_C$ = 120 K at p = 0 GPa) is fully suppressed by p = 26.5 GPa and the Cr-moment decreases steadily with increasing pressure. The unit cell volume decreases smoothly up to p = 55 GPa. We find that the bulk modulus and suppression of the magnetism are in good agreement with theoretical predictions, but the Cr-moment decreases smoothly with pressure, in contrast to steplike drops predicted by theory. The ferromagnetic ordering temperature appears to be driven by the Cr-moment., Comment: 8 pages, 8 figures

Published

2020

12. Inhomogeneous Knight shift in vortex cores of superconducting FeSe

Author

Vinograd, I, Edwards, SP, Wang, Z, Kissikov, T, Byland, JK, Badger, JR, Taufour, V, and Curro, NJ

Subjects

cond-mat.supr-con, cond-mat.str-el

Abstract

We report $^{77}$Se NMR data in the normal and superconducting states of asingle crystal of FeSe for several different field orientations. The Knightshift is suppressed in the superconducting state for in-plane fields, but doesnot vanish at zero temperature. For fields oriented out of the plane, little orno reduction is observed below $T_c$. These results reflect spin-singletpairing emerging from a nematic state with large orbital susceptibility andspin-orbit coupling. The spectra and spin-relaxation rate data revealelectronic inhomogeneity that is enhanced in the superconducting state,possibly arising from enhanced density of states in the vortex cores. Despitethe spin polarization of these states, there is no evidence forantiferromagnetic fluctuations.

Published

2021

13. Magnetic fluctuations in the itinerant ferromagnet LaCrGe3 studied by 139La NMR

Author

Rana, K., Kotegawa, H., Ullah, R. R., Harvey, J. S., Bud'ko, S. L., Canfield, P. C., Tou, H., Taufour, V., and Furukawa, Y.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

LaCrGe$_3$ is an itinerant ferromagnet with a Curie temperature of $T_{\rm c}$ = 85 K and exhibits an avoided ferromagnetic quantum critical point under pressure through a modulated antiferromagnetic phase as well as tri-critical wing structure in its temperature-pressure-magnetic field ($T$-$p$-$H$) phase diagram. In order to understand the static and dynamical magnetic properties of LaCrGe$_3$, we carried out $^{139}$La nuclear magnetic resonance (NMR) measurements. Based on the analysis of NMR data, using the self-consistent-renomalization (SCR) theory, the spin fluctuations in the paramagnetic state are revealed to be isotropic ferromagnetic and three dimensional (3D) in nature. Moreover, the system is found to follow the generalized Rhodes-Wohfarth relation which is expected in 3D itinerant ferromagnetic systems. As compared to other similar itinerant ferromagnets, the Cr 3$d$ electrons and their spin fluctuations are characterized to have a relatively high degree of localization in real space., Comment: 7 pages, 6 figures, accepted for publication in Phys. Rev. B

Published

2019

14. Topological surface states above the Fermi energy in $\textrm{Hf}_{2}\textrm{Te}_2\textrm{P}$

Author

Boyle, T. J., Rossi, A., Walker, M., Carlson, P., Miller, M. K., Zhao, J., Klavins, P., Jozwiak, C., Bostwick, A., Rotenberg, E., Taufour, V., Vishik, I., and Neto, E. H. da Silva

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science

Abstract

We report a detailed experimental study of the band structure of the recently discovered topological material $\textrm{Hf}_{2}\textrm{Te}_2\textrm{P}$. Using the combination of scanning tunneling spectroscopy and angle-resolved photo-emission spectroscopy with surface K-doping, we probe the band structure of $\textrm{Hf}_{2}\textrm{Te}_2\textrm{P}$ with energy and momentum resolution above the Fermi level. Our experiments show the presence of multiple surface states with a linear Dirac-like dispersion, consistent with the predictions from previously reported band structure calculations. In particular, scanning tunneling spectroscopy measurements provide the first experimental evidence for the strong topological surface state predicted at 460 meV, which stems from the band inversion between Hf-d and Te-p orbitals. This band inversion comprised of more localized d-states could result in a better surface-to-bulk conductance ratio relative to more traditional topological insulators., Comment: Supplementary materials available upon request

Published

2019

15. Reinvestigation of the intrinsic magnetic properties of (Fe1-xCox)2B alloys and crystallization behavior of ribbons

Author

Lamichhane, TN, Palasyuk, O, Antropov, VP, Zhuravlev, IA, Belashchenko, KD, Nlebedim, IC, Dennis, KW, Jesche, A, Kramer, MJ, Bud'ko, SL, McCallum, RW, Canfield, PC, and Taufour, V

Subjects

Temperature dependent anisotropy, Single crystals, Melt-spun ribbons, cond-mat.mtrl-sci, cond-mat.other, Condensed Matter Physics, Materials Engineering, Mechanical Engineering, Applied Physics

Abstract

New determination of the magnetic anisotropy from single crystals of (Fe1-xCox)2B alloys are presented. The anomalous temperature dependence of the anisotropy constant is discussed using the standard Callen-Callen theory, which is shown to be insufficient to explain the experimental results. A more material specific study using first-principles calculations with disordered moments approach gives a much more consistent interpretation of the experimental data. Since the intrinsic properties of the alloys with x=0.3-0.35 are promising for permanent magnets applications, initial investigation of the extrinsic properties are described, in particular the crystallization of melt spun ribbons with Cu, Al, and Ti additions. Previous attempts at developing a significant hysteresis have been unsuccessful in this system. Our melt-spinning experiment indicates that this system shows rapid crystallization.

Published

2020

16. Study of the ferromagnetic quantum phase transition in Ce3−xMgxCo9

Author

Lamichhane, TN, Taufour, V, Palasyuk, A, Bud'ko, SL, and Canfield, PC

Subjects

Pauli maramagnet, quantum phase transition, ferromagnet, cond-mat.mtrl-sci, Materials, Mathematical Sciences, Physical Sciences, Engineering

Abstract

The Ce (Formula presented.) Mg (Formula presented.) Co (Formula presented.) system evolves from a Pauli paramagnetic ground state for x = 0 to a ferromagnetic ground state for (Formula presented.) in single-phase, polycrystalline samples [Lamichhane, V. Taufour, A. Palasyuk, Q. Lin, S.L. Budko, and P.C. Canfield, (Formula presented.) : transformation of a Pauli paramagnet into a strong permanent magnet, Phys. Rev. Appl. 9 (2018), p. 024023]. In order to better understand this behaviour, single-crystalline samples of Ce (Formula presented.) Mg (Formula presented.) Co (Formula presented.) for x = 0.01, 0.16, 0.24, 0.35, 0.43 and 0.50 were grown using the flux growth technique, and electrical transport and magnetic properties were studied. The (Formula presented.) -x phase diagram we infer shows that the system has a quantum phase transition near x = 0.35, transforming to a ferromagnetic ground state.

Published

2020

17. Pressure-induced suppression of ferromagnetism in the itinerant ferromagnet LaCrSb3

Author

Brubaker, ZE, Harvey, JS, Badger, JR, Ullah, RR, Campbell, DJ, Xiao, Y, Chow, P, Kenney-Benson, C, Smith, JS, Reynolds, C, Paglione, J, Zieve, RJ, Jeffries, JR, and Taufour, V

Subjects

Physical Sciences, Condensed Matter Physics, cond-mat.str-el, Chemical sciences, Engineering, Physical sciences

Abstract

We have performed an extensive pressure-dependent structural, spectroscopic, and electrical transport study of LaCrSb3. The ferromagnetic phase (TC=120 K at p = 0 GPa) is fully suppressed by p = 26.5 GPa and the Cr moment decreases steadily with increasing pressure. The unit-cell volume decreases smoothly up to p = 55 GPa. We find that the bulk modulus and suppression of the magnetism are in good agreement with theoretical predictions, but the Cr moment decreases smoothly with pressure, in contrast to steplike drops predicted by theory. The ferromagnetic ordering temperature appears to be driven by the Cr moment.

Published

2020

18. Pressure dependence of coherence-incoherence crossover behavior in KFe2As2 observed by resistivity and 75As-NMR/NQR

Author

Wiecki, P., Taufour, V., Chung, D. Y., Kanatzidis, M. G., Bud'ko, S. L., Canfield, P. C., and Furukawa, Y.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We present the results of $^{75}$As nuclear magnetic resonance (NMR), nuclear quadrupole resonance (NQR), and resistivity measurements in KFe$_2$As$_2$ under pressure ($p$). The temperature dependence of the NMR shift, nuclear spin-lattice relaxation time ($T_1$) and resistivity show a crossover between a high-temperature incoherent, local-moment behavior and a low-temperature coherent behavior at a crossover temperature ($T^*$). $T^*$ is found to increase monotonically with pressure, consistent with increasing hybridization between localized $3d$ orbital-derived bands with the itinerant electron bands. No anomaly in $T^*$ is seen at the critical pressure $p_{\rm c}=1.8$ GPa where a change of slope of the superconducting (SC) transition temperature $T_{\rm c}(p)$ has been observed. In contrast, $T_{\rm c}(p)$ seems to correlate with antiferromagnetic spin fluctuations in the normal state as measured by the NQR $1/T_1$ data, although such a correlation cannot be seen in the replacement effects of A in the AFe$_2$As$_2$ (A= K, Rb, Cs) family. In the superconducting state, two $T_1$ components are observed at low temperatures, suggesting the existence of two distinct local electronic environments. The temperature dependence of the short $T_{\rm 1s}$ indicates nearly gapless state below $T_{\rm c}$. On the other hand, the temperature dependence of the long component 1/$T_{\rm 1L}$ implies a large reduction in the density of states at the Fermi level due to the SC gap formation. These results suggest a real-space modulation of the local SC gap structure in KFe$_2$As$_2$ under pressure., Comment: 12 pages, 10 figures, accepted for publication in Phys.Rev. B

Published

2018

19. Topological surface states above the Fermi level in Hf2Te2 P

Author

Boyle, TJ, Rossi, A, Walker, M, Carlson, P, Miller, MK, Zhao, J, Klavins, P, Jozwiak, C, Bostwick, A, Rotenberg, E, Taufour, V, Vishik, IM, and Da Silva Neto, EH

Subjects

cond-mat.mes-hall, cond-mat.mtrl-sci

Abstract

We report a detailed experimental study of the band structure of the recently discovered topological material Hf2Te2P. Using the combination of scanning tunneling spectroscopy and angle-resolved photoemission spectroscopy with surface K doping, we probe the band structure of Hf2Te2P with energy and momentum resolution above the Fermi level. Our experiments show the presence of multiple surface states with a linear Dirac-like dispersion, consistent with the predictions from previously reported band-structure calculations. In particular, scanning tunneling spectroscopy measurements provide experimental evidence for the strong topological surface state predicted at 460meV, which stems from the band inversion between Hf-d and Te-p orbitals. This band inversion comprised of more localized d states could result in a better surface-to-bulk conductance ratio relative to more traditional topological insulators.

Published

2019

20. Magnetic fluctuations in the itinerant ferromagnet LaCrGe3 studied by la 139 NMR

Author

Rana, K, Kotegawa, H, Ullah, RR, Harvey, JS, Bud'Ko, SL, Canfield, PC, Tou, H, Taufour, V, and Furukawa, Y

Subjects

cond-mat.str-el

Abstract

LaCrGe3 is an itinerant ferromagnet with a Curie temperature of TC=85 K and exhibits an avoided ferromagnetic quantum critical point under pressure through a modulated antiferromagnetic phase as well as tricritical wing structure in its temperature-pressure-magnetic field (T-p-H) phase diagram. In order to understand the static and dynamical magnetic properties of LaCrGe3, we carried out La139 nuclear magnetic resonance (NMR) measurements. Based on the analysis of NMR data, using the self-consistent-renormalization (SCR) theory, the spin fluctuations in the paramagnetic state are revealed to be isotropic ferromagnetic and three dimensional (3D) in nature. Moreover, the system is found to follow the generalized Rhodes-Wohlfarth relation which is expected in 3D itinerant ferromagnetic systems. As compared to other similar itinerant ferromagnets, the Cr 3d electrons and their spin fluctuations are characterized to have a relatively high degree of localization in real space.

Published

2019

21. Magnetic fluctuations in the itinerant ferromagnet LaCrGe3 studied by La139 NMR

Author

Rana, K, Kotegawa, H, Ullah, RR, Harvey, JS, Bud'ko, SL, Canfield, PC, Tou, H, Taufour, V, and Furukawa, Y

Subjects

Physical Sciences, Classical Physics, cond-mat.str-el, Chemical sciences, Engineering, Physical sciences

Abstract

LaCrGe3 is an itinerant ferromagnet with a Curie temperature of TC=85 K and exhibits an avoided ferromagnetic quantum critical point under pressure through a modulated antiferromagnetic phase as well as tricritical wing structure in its temperature-pressure-magnetic field (T-p-H) phase diagram. In order to understand the static and dynamical magnetic properties of LaCrGe3, we carried out La139 nuclear magnetic resonance (NMR) measurements. Based on the analysis of NMR data, using the self-consistent-renormalization (SCR) theory, the spin fluctuations in the paramagnetic state are revealed to be isotropic ferromagnetic and three dimensional (3D) in nature. Moreover, the system is found to follow the generalized Rhodes-Wohlfarth relation which is expected in 3D itinerant ferromagnetic systems. As compared to other similar itinerant ferromagnets, the Cr 3d electrons and their spin fluctuations are characterized to have a relatively high degree of localization in real space.

Published

2019

22. Ferromagnetic quantum criticality: New aspects from the phase diagram of LaCrGe3

Author

Taufour, V, Kaluarachchi, US, Bud'ko, SL, and Canfield, PC

Subjects

Ferromagnet, Quantum criticality, Tricritical point, Wing structure, Lifshitz point, Condensed Matter Physics, Quantum Physics, Macromolecular and Materials Chemistry, General Physics

Abstract

Recent theoretical and experimental studies have shown that ferromagnetic quantum criticality is always avoided in clean systems. Two possibilities have been identified. In the first scenario, the ferromagnetic transition becomes of the first order at a tricritical point before being suppressed. A wing structure phase diagram is observed indicating the possibility of a new type of quantum critical point under magnetic field. In a second scenario, a transition to a modulated magnetic phase occurs. Our recent studies on the compound LaCrGe3 illustrate a third scenario where not only a new magnetic phase occurs, but also a change of order of the transition at a tricritical point leading to a wing-structure phase diagram. Careful experimental study of the phase diagram near the tricritical point also illustrates new rules near this type of point.

Published

2018

23. Variation of transition temperatures and residual resistivity ratio in vapor-grown FeSe

Author

Böhmer, A. E., Taufour, V., Straszheim, W. E., Wolf, T., and Canfield, P. C.

Subjects

Condensed Matter - Superconductivity

Abstract

The study of the iron-based superconductor FeSe has blossomed with the availability of high quality single crystals, obtained through flux/vapor-transport growth techniques below the structural transformation temperature of its tetragonal phase, T~450 C. Here, we report on the variation of sample morphology and properties due to small modifications in the growth conditions. A considerable variation of the superconducting transition temperature Tc, from 8.8 K to 3 K, which cannot be correlated with the sample composition, is observed. Instead, we point out a clear correlation between Tc and disorder, as measured by the residual resistivity ratio. Notably, the tetragonal-to-orthorhombic structural transition is also found to be quite strongly disorder dependent (Ts =72 - 90 K), and linearly correlated with Tc.

Published

2016

24. Anisotropic thermodynamic and transport properties of single crystalline CaKFe$_{4}$As$_{4}$

Author

Meier, W. R., Kong, T., Kaluarachchi, U. S., Taufour, V., Jo, N. H., Drachuck, G., Böhmer, A. E., Saunders, S. M., Sapkota, A., Kreyssig, A., Tanatar, M. A., Prozorov, R., Goldman, A. I., Balakirev, Fedor F., Gurevich, Alex, Bud'ko, S. L., and Canfield, P. C.

Subjects

Condensed Matter - Superconductivity

Abstract

Single crystalline, single phase CaKFe$_{4}$As$_{4}$ has been grown out of a high temperature, quaternary melt. Temperature dependent measurements of x-ray diffraction, anisotropic electrical resistivity, elastoresistivity, thermoelectric power, Hall effect, magnetization and specific heat, combined with field dependent measurements of electrical resistivity and field and pressure dependent measurements of magnetization indicate that CaKFe$_{4}$As$_{4}$ is an ordered, stoichiometric, Fe-based superconductor with a superconducting critical temperature, $T_c$ = 35.0 $\pm$ 0.2 K. Other than superconductivity, there is no indication of any other phase transition for 1.8 K $\leq T \leq$ 300 K. All of these thermodynamic and transport data reveal striking similarities to that found for optimally- or slightly over-doped (Ba$_{1-x}$K$_x$)Fe$_2$As$_2$, suggesting that stoichiometric CaKFe$_4$As$_4$ is intrinsically close to what is referred to as "optimal-doped" on a generalized, Fe-based superconductor, phase diagram. The anisotropic superconducting upper critical field, $H_{c\text{2}}(T)$, of CaKFe$_{4}$As$_{4}$ was determined up to 630 kOe. The anisotropy parameter $\gamma(T)=H_{c\text{2}}^{\perp}/H_{c\text{2}}^{\|}$, for $H$ applied perpendicular and parallel to the c-axis, decreases from $\simeq 2.5$ at $T_c$ to $\simeq 1.5$ at 25 K which can be explained by interplay of paramagnetic pairbreaking and orbital effects. The slopes of $dH_{c\text{2}}^{\|}/dT\simeq-44$ kOe/K and $dH_{c\text{2}}^{\perp}/dT \simeq-109$ kOe/K at $T_c$ yield an electron mass anisotropy of $m_{\perp}/m_{\|}\simeq 1/6$ and short Ginzburg-Landau coherence lengths $\xi_{\|}(0)\simeq 5.8 \text{\AA}$ and $\xi_{\perp}(0)\simeq 14.3 \text{\AA}$. The value of $H_{c\text{2}}^{\perp}(0)$ can be extrapolated to $\simeq 920$ kOe, well above the BCS paramagnetic limit., Comment: 13 pages, 15 figures, part of arXiv:1606.02241 is included

Published

2016

25. Thermoelectric power quantum oscillations in the ferromagnet UGe$_2$

Author

Morales, A. Palacio, Pourret, A., Knebel, G., Bastien, G., Taufour, V., Aoki, D., Yamagami, H., and Flouquet, J.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We present thermoelectric power and resistivity measurements in the ferromagnet UGe$_2$ as a function of temperature and magnetic field. At low temperature, huge quantum oscillations are observed in the thermoelectric power as a function of the magnetic field applied along the $a$ axis. The frequencies of the extreme orbits are determined and an analysis of the cyclotron masses is performed following different theoretical approaches for quantum oscillations detected in the thermoelectric power. They are compared to those obtained by Shubnikov-de Haas experiments on the same crystal and previous de Haas-van Alphen experiments. The agreement of the different probes confirms thermoelectric power as an excellent probe to extract simultaneously both microscopic and macroscopic information on the Fermi-surface properties. Band-structure calculations of UGe$_2$ in the ferromagnetic state are compared to the experiment., Comment: 10 figures, 12 pages, accepted for publication in Phys. Rev. B

Published

2016

26. Strong cooperative coupling of pressure-induced magnetic order and nematicity in FeSe

Author

Kothapalli, K., Böhmer, A. E., Jayasekara, W. T., Ueland, B. G., Das, P., Sapkota, A., Taufour, V., Xiao, Y., Alp, E. E., Bud'ko, S. L., Canfield, P. C., Kreyssig, A., and Goldman, A. I.

Subjects

Condensed Matter - Superconductivity

Abstract

A hallmark of the iron-based superconductors is the strong coupling between magnetic, structural and electronic degrees of freedom. However, a universal picture of the normal state properties of these compounds has been confounded by recent investigations of FeSe where the nematic (structural) and magnetic transitions appear to be decoupled. Here, using synchrotron-based high-energy x-ray diffraction and time-domain Moessbauer spectroscopy, we show that nematicity and magnetism in FeSe under applied pressure are indeed strongly coupled. Distinct structural and magnetic transitions are observed for pressures, 1.0 GPa <= p <= 1.7 GPa, which merge into a single first-order phase line for p >= 1.7 GPa, reminiscent of what has been observed, both experimentally and theoretically, for the evolution of these transitions in the prototypical doped system, Ba(Fe[1-x]Co[x])2As2. Our results support a spin-driven mechanism for nematic order in FeSe and provide an important step towards a universal description of the normal state properties of the iron-based superconductors., Comment: (14 pages, 4 figures)

Published

2016

27. Dome of magnetic order inside the nematic phase of sulfur-substituted FeSe under pressure

Author

Xiang, L, Kaluarachchi, US, Böhmer, AE, Taufour, V, Tanatar, MA, Prozorov, R, Bud'Ko, SL, and Canfield, PC

Subjects

cond-mat.supr-con

Abstract

The pressure dependence of the structural, magnetic, and superconducting transitions and of the superconducting upper critical field were studied in sulfur-substituted Fe(Se1-xSx). Resistance measurements were performed on single crystals with three substitution levels (x=0.043, 0.096, 0.12) under hydrostatic pressures up to 1.8 GPa and in magnetic fields up to 9 T and were compared to data on pure FeSe. Our results illustrate the effects of chemical and physical pressure on Fe(Se1-xSx). On increasing sulfur content, magnetic order in the low-pressure range is strongly suppressed to a small domelike region in the phase diagrams. However, Ts is much less suppressed by sulfur substitution, and Tc of Fe(Se1-xSx) exhibits similar nonmonotonic pressure dependence with a local maximum and a local minimum present in the low-pressure range for all x. The local maximum in Tc coincides with the emergence of the magnetic order above Tc. At this pressure the slope of the upper critical field decreases abruptly, which may indicate a Fermi-surface reconstruction. The minimum of Tc correlates with a broad maximum of the upper critical field slope normalized by Tc.

Published

2017

28. Stabilization of a Metastable Fibrous Bi21.2(1)(Mn1-xCox)20Phase with Pseudo-Pentagonal Symmetry Prepared Using a Bi Self-Flux

Author

Thimmaiah, S, Taufour, V, Saunders, S, March, S, Zhang, Y, Kramer, MJ, Canfield, PC, and Miller, GJ

Subjects

Chemical Sciences, Engineering, Materials

Published

2016

29. Origin of the Resistivity Anisotropy in the Nematic Phase of FeSe

Author

Tanatar, M. A., Böhmer, A. E., Timmons, E. I., Schütt, M., Drachuck, G., Taufour, V., Bud'ko, S. L., Canfield, P. C., Fernandes, R. M., and Prozorov, R.

Subjects

Condensed Matter - Superconductivity

Abstract

The in-plane resistivity anisotropy is studied in strain-detwinned single crystals of FeSe. In contrast to other iron-based superconductors, FeSe does not develop long-range magnetic order below the nematic/structural transition at $T_{s}\approx$90~K. This allows for the disentanglement of the contributions to the resistivity anisotropy due to nematic and magnetic orders. Comparing direct transport and elastoresistivity measurements, we extract the intrinsic resistivity anisotropy of strain-free samples. The anisotropy peaks slightly below $T_{s}$ and decreases to nearly zero on cooling down to the superconducting transition. This behavior is consistent with a scenario in which the in-plane resistivity anisotropy in FeSe is dominated by inelastic scattering by anisotropic spin fluctuations.

Published

2015

30. Pressure-induced collapsed-tetragonal phase in SrCo2As2

Author

Jayasekara, W. T., Kaluarachchi, U. S., Ueland, B. G., Pandey, Abhishek, Lee, Y. B., Taufour, V., Sapkota, A., Kothapalli, K., Sangeetha, N. S., Fabbris, G., Veiga, L. S. I., Feng, Yejun, Santos, A. M. dos, Bud'ko, S. L., Harmon, B. N., Canfield, P. C., Johnston, D. C., Kreyssig, A., and Goldman, A. I.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We present high-energy x-ray diffraction data under applied pressures up to p = 29 GPa, neutron diffraction measurements up to p = 1.1 GPa, and electrical resistance measurements up to p = 5.9 GPa, on SrCo2As2. Our x-ray diffraction data demonstrate that there is a first-order transition between the tetragonal (T) and collapsed-tetragonal (cT) phases, with an onset above approximately 6 GPa at T = 7 K. The pressure for the onset of the cT phase and the range of coexistence between the T and cT phases appears to be nearly temperature independent. The compressibility along the a-axis is the same for the T and cT phases whereas, along the c-axis, the cT phase is significantly stiffer, which may be due to the formation of an As-As bond in the cT phase. Our resistivity measurements found no evidence of superconductivity in SrCo2As2 for p <= 5.9 GPa and T >= 1.8 K. The resistivity data also show signatures consistent with a pressure-induced phase transition for p >= 5.5 GPa. Single-crystal neutron diffraction measurements performed up to 1.1 GPa in the T phase found no evidence of stripe-type or A-type antiferromagnetic ordering down to 10 K. Spin-polarized total-energy calculations demonstrate that the cT phase is the stable phase at high pressure with a c/a ratio of 2.54. Furthermore, these calculations indicate that the cT phase of SrCo2As2 should manifest either A-type antiferromagnetic or ferromagnetic order., Comment: 6 pages, 5 figures

Published

2015

31. Remarkably robust and correlated coherence and antiferromagnetism in (Ce$_{1-x}$La$_x$)Cu$_2$Ge$_2$

Author

Hodovanets, H., Bud'ko, S. L., Straszheim, W. E., Taufour, V., Mun, E. D., Kim, H., Flint, R., and Canfield, P. C.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We present magnetic susceptibility, resistivity, specific heat, and thermoelectric power measurements on (Ce$_{1-x}$La$_x$)Cu$_2$Ge$_2$ single crystals (0 $\leq x\leq$ 1). With La substitution, the antiferromagnetic temperature $T_N$ is suppressed in an almost linear fashion and moves below 0.36 K, the base temperature of our measurements for $x>$ 0.8. Surprisingly, in addition to robust antiferromagnetism, the system also shows low temperature coherent scattering below $T_{coh}$ up to $\sim$ 0.9 of La, indicating a small percolation limit $\sim$ 9$\%$ of Ce that separates a coherent regime from a single-ion Kondo impurity regime. $T_{coh}$ as a function of magnetic field was found to have different behavior for $x$< 0.9 and $x$> 0.9. Remarkably, $(T_{coh})^2$ at $H$ = 0 was found to be linearly proportional to $T_N$. The jump in the magnetic specific heat $\delta C_{m}$ at $T_N$ as a function of $T_K/T_N$ for (Ce$_{1-x}$La$_x$)Cu$_2$Ge$_2$ follows the theoretical prediction based on the molecular field calculation for the $S$ = 1/2 resonant level model.

Published

2014

32. Anisotropic physical properties and pressure dependent magnetic ordering of CrAuTe4

Author

Jo, NH, Kaluarachchi, US, Wu, Y, Mou, D, Huang, L, Taufour, V, Kaminski, A, Bud'Ko, SL, and Canfield, PC

Subjects

cond-mat.str-el

Abstract

Systematic measurements of temperature-dependent magnetization, resistivity, and angle-resolved photoemission spectroscopy (ARPES) at ambient pressure as well as resistivity under pressures up to 5.25 GPa were conducted on single crystals of CrAuTe4. Magnetization data suggest that magnetic moments are aligned antiferromagnetically along the crystallographic c axis below TN=255 K. ARPES measurements show band reconstruction due to the magnetic ordering. Magnetoresistance data show clear anisotropy, and, at high fields, quantum oscillations. The Néel temperature decreases monotonically under pressure, decreasing to TN=236 K at 5.22 GPa. The pressure dependencies of (i) TN, (ii) the residual resistivity ratio, and (iii) the size and power-law behavior of the low-temperature magnetoresistance all show anomalies near 2 GPa suggesting that there may be a phase transition (structural, magnetic, and/or electronic) induced by pressure. For pressures higher than 2 GPa a significantly different quantum oscillation frequency emerges, consistent with a pressure induced change in the electronic states.

Published

2016

33. Strong cooperative coupling of pressure-induced magnetic order and nematicity in FeSe.

Author

Kothapalli, K, Böhmer, AE, Jayasekara, WT, Ueland, BG, Das, P, Sapkota, A, Taufour, V, Xiao, Y, Alp, E, Bud'ko, SL, Canfield, PC, Kreyssig, A, and Goldman, AI

Subjects

cond-mat.supr-con

Abstract

A hallmark of the iron-based superconductors is the strong coupling between magnetic, structural and electronic degrees of freedom. However, a universal picture of the normal state properties of these compounds has been confounded by recent investigations of FeSe where the nematic (structural) and magnetic transitions appear to be decoupled. Here, using synchrotron-based high-energy x-ray diffraction and time-domain Mössbauer spectroscopy, we show that nematicity and magnetism in FeSe under applied pressure are indeed strongly coupled. Distinct structural and magnetic transitions are observed for pressures between 1.0 and 1.7 GPa and merge into a single first-order transition for pressures ≳1.7 GPa, reminiscent of what has been found for the evolution of these transitions in the prototypical system Ba(Fe1-xCox)2As2. Our results are consistent with a spin-driven mechanism for nematic order in FeSe and provide an important step towards a universal description of the normal state properties of the iron-based superconductors.

Published

2016

34. Constraints on the merging of the transition lines at the tricritical point in a wing-structure phase diagram

Author

Taufour, V, Kaluarachchi, US, and Kogan, VG

Subjects

cond-mat.str-el, cond-mat.other

Abstract

We consider the phase diagram of a ferromagnetic system driven to a quantum phase transition with a tuning parameter p. Before being suppressed, the transition becomes of the first order at a tricritical point, from which wings emerge under application of the magnetic field H in the T-p-H phase diagram. We show that the edge of the wings merge with tangent slopes at the tricritical point.

Published

2016

35. Giant magnetic anisotropy and tunnelling of the magnetization in Li2(Li_{1-x}Fe_x)N

Author

Jesche, A., McCallum, R. W., Thimmaiah, S., Jacobs, J. L., Taufour, V., Kreyssig, A., Houk, R. S., Bud'ko, S. L., and Canfield, P. C.

Subjects

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

Abstract

Large magnetic anisotropy and coercivity are key properties of functional magnetic materials and are generally associated with rare earth elements. Here we show an extreme, uniaxial magnetic anisotropy and the emergence of magnetic hysteresis in Li2(Li1-xFex)N. An extrapolated, magnetic anisotropy field of 220 Tesla and a coercivity field of over 11 Tesla at 2 Kelvin outperform all known hard-ferromagnets and single-molecule magnets (SMMs). Steps in the hysteresis loops and relaxation phenomena in striking similarity to SMMs are particularly pronounced for x << 1 and indicate the presence of nano-scale magnetic centres. Quantum tunnelling, in form of temperature-independent relaxation and coercivity, deviation from Arrhenius behaviour and blocking of the relaxation, dominates the magnetic properties up to 10 Kelvin. The simple crystal structure, the availability of large single crystals, and the ability to vary the Fe concentration make Li2(Li1-xFex)N (i) an ideal model system to study macroscopic quantum effects at elevated temperatures and (ii) a basis for novel functional magnetic materials., Comment: 19 pages, 5 figures, Supplementary Information attached, revised version published in Nature Communications

Published

2014

36. Oxygen trapped by rare earth tetrahedral clusters in Nd4FeOS6: Crystal structure, electronic structure, and magnetic properties

Author

Lin, Q, Taufour, V, Zhang, Y, Wood, M, Drtina, T, Bud'ko, SL, Canfield, PC, and Miller, GJ

Subjects

Crystal growth, Crystallography, Structure, Magnetism, Electronic structure, Inorganic Chemistry, Macromolecular and Materials Chemistry, Physical Chemistry (incl. Structural), Inorganic & Nuclear Chemistry

Abstract

Abstract Single crystals of Nd4FeOS6 were grown from an Fe-S eutectic solution. Single crystal X-ray diffraction analysis revealed a Nd4MnOSe6-type structure (P63mc, a=9.2693(1) Å, c=6.6650(1)Å, V=495.94(1) Å3, Z=2), featuring parallel chains of face-sharing [FeS6×1/2]4- trigonal antiprisms and interlinked [Nd4OS3]4+ cubane-like clusters. Oxygen atoms were found to be trapped by Nd4 clusters in the [Nd4OS3]4+ chains. Structural differences among Nd4MnOSe6-type Nd4FeOS6 and the related La3CuSiS7- and Pr8CoGa3-type structures have been described. Magnetic susceptibility measurements on Nd4FeOS6 suggested the dominance of antiferromagnetic interactions at low temperature, but no magnetic ordering down to 2 K was observed. Spin-polarized electronic structure calculations revealed magnetic frustration with dominant antiferromagnetic interactions.

Published

2015

37. On the structure and stability of BaAl4-type ordered derivatives in the Sr-Au-Sn system for the 600 ° C section

Author

Lin, Q, Zhang, Y, Taufour, V, Lamichhane, TN, Bud'Ko, SL, Canfield, PC, Dennis, K, and Miller, G

Subjects

Solid-state structures, Electronic structure, X-ray diffraction, BaAl4-type, Intermetallic phases, Inorganic & Nuclear Chemistry, Inorganic Chemistry, Other Chemical Sciences

Abstract

The well-known BaAl4-type structure consists of three ordered ternary derivatives, i.e., BaNiSn3-(I4mm), ThCr2Si2-(I4/mmm), and CaBe2Ge2-type (P4/nmm). Few systems, such as Ba-Au-Sn, have been confirmed to manifest all three types as a function of valence electron count. In this work, the SrAuxSn4-xsolid solution at the 600 ° C section was studied thoroughly using both single crystal and powder X-ray diffraction. The crystal structures and phase width for the CaBe2Ge2-type SrAuxSn4-xsolid solution were established to be α = 4.6528(2)-4.6233(3) Å and c = 11.3753(4)-11.2945(10) Å for x ≈ 1.65(1)-2.19(1). In the structure of SrAu2Sn2, no Au/Sn mixing was found, but for x < 2 compositions, Au/Sn mixings were only located at the Wyckoff 2α (3/4 1/4 0) site and for x > 2 compositions, at the 2b (3/4 1/4 1/2) site. Differential scanning calorimetry (DSC) analyses indicated that no phase transition occurred for the CaBe2Ge2-type SrAuxSn4-xphase up to 950 ° C. Attempts to synthesize the ThCr2Si2-and BaNiSn3-type SrAuxSn4-xphases under the same reaction conditions were unsuccessful, and the BaNiSn3-type phase could not be attained even at a pressure of 3 GPa. The instability of a BaNiSn3-type "SrAuSn3" was investigated by both DSC measurements and first principles electronic structure calculations.

Published

2015

38. Anisotropic transport and magnetic properties, and magnetic-field tuned states of CeZn11 single crystals

Author

Hodovanets, H., Bud'ko, S. L., Lin, X., Taufour, V., Kim, M. G., Pratt, D. K., Kreyssig, A., and Canfield, P. C.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We present detailed temperature and field dependent data obtained from magnetization, resistivity, heat capacity, Hall resistivity and thermoelectric power measurements performed on single crystals of CeZn11. The compounds orders antiferromagnetically at $\sim$ 2 K. The zero-field resistivity and TEP data show features characteristic of a Ce-based intermetallic with crystal electric field splitting and possible correlated, Kondo lattice effects. We constructed the T-H phase diagram for the magnetic field applied along the easy, [110], direction which shows that the magnetic field required to suppress T_N below 0.4 K is in the range of 45-47.5 kOe. A linear behavior of the rho(T) data, H||[110], was observed only for H=45 kOe for 0.46 K

Published

2013

39. Tricritical point and wing structure in the itinerant ferromagnet UGe2

Author

Taufour, V., Aoki, D., Knebel, G., and Flouquet, J.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Precise resistivity measurements on the ferromagnetic superconductor UGe2 under pressure p and magnetic field H reveal a previously unobserved change of the anomaly at the Curie temperature. Therefore, the tricritical point (TCP) where the paramagnetic-to-ferromagnetic transition changes from a second order to a first order transition is located in the p-T phase diagram. Moreover, the evolution of the TCP can be followed under the magnetic field in the same way. It is the first report of the boundary of the first order plane which appears in the p-T-H phase diagram of weak itinerant ferromagnets. This line of critical points starts from the TCP and will terminate at a quantum critical point. These measurements provide the first estimation of the location of the quantum critical point in the p-H plane and will inspire similar studies of the other weak itinerant ferromagnets., Comment: 4 pages, 5 figures, published in Physical Review Letters

Published

2010

40. Trends in Heavy Fermion Matter

Author

Flouquet, J., Aoki, D., Bourdarot, F., Hardy, F., Hassinger, E., Knebel, G., Matsuda, T. D., Meingast, C., Paulsen, C., and Taufour, V.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

A brief review on major advances in heavy fermion physics is presented including the Ce metal phase diagram, the huge effective mass detected in CeAl3, and the successive discoveries of unconventional superconductivity in CeCu2Si2 and three U based compounds, UBe13, UPt3 and URu2Si2. In order to track the origin of the huge effective mass, the case of intermediate valence compounds is discussed with emphasis of the differences between Yb and Ce materials. The formation of the effective mass is analyzed by two regular- and singular-part contributions. Examples are given for both, antiferromagnetic (CeRu2Si2 series) and ferromagnetic tricriticalities (UGe2). Pressure and magnetic-field studies on the ferromagnetic superconductor URhGe illustrate the role of the singular effective mass enhancement on the superconducting pairing. The discovery of the Ce-115 material gives the opportunity to study deeply the interplay of antiferromagnetism and superconductivity. This is clearly demonstrated by field re-entrance AF inside the SC phase just below the superconducting upper critical field (Hc2) for CeCoIn5 or on both side of Hc2 within a restricted pressure window for CeRhIn5. The present status of the search for the hidden-order parameter of URu2Si2 is given and we emphasize that it may correspond to a lattice unit-cell doubling which leads to a drastic change in the band structure and spin dynamic, with the possibility of competition between multipolar ordering and antiferromagnetism., Comment: 25 pages, plenary contribution SCES conference Santa Fe 2010

Published

2010

41. Similarity of Fermi Surface in the Hidden Order State and in the Antiferromagnetic State of URu2Si2

Author

Hassinger, E., Knebel, G., Matsuda, T. M., Aoki, D., Taufour, V., and Flouquet, J.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Shubnikov-de Haas measurements of high quality URu2Si2 single crystals reveal two previously unobserved Fermi surface branches in the so-called hidden order phase. Therefore about 55% of the enhanced mass is now detected. Under pressure in the antiferromagnetic state, the Shubnikov-de Haas frequencies for magnetic fields applied along the crystalline c axis show little change compared with the zero pressure data. This implies a similar Fermi surface in both the hidden order and antiferromagnetic states, which strongly suggests that the lattice doubling in the antiferromagnetic phase due to the ordering vector QAF = (0 0 1) already occurs in the hidden order. These measurements provide a good test for existing or future theories of the hidden order parameter., Comment: 4 pages, 4 figures

Published

2010

42. Inelastic contribution of the resistivity in the hidden order in URu2Si2

Author

Hassinger, E, Matsuda, T D, Knebel, G, Taufour, V, Aoki, D, and Flouquet, J

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

In the hidden order of URu2Si2 the resistivity at very low temperature shows no T^2 behavior above the transition to superconductivity. However, when entering the antiferromagnetic phase, the Fermi liquid behavior is recovered. We discuss the change of the inelastic term when entering the AF phase with pressure considering the temperature dependence of the Grueneisen parameter at ambient pressure and the influence of superconductivity by an extrapolation of high field data., Comment: 5 pages, 2 figures, SCES conference proceeding

Published

2010

43. Observation of the J-sheet of the Fermi surface of YbRh2Si2

Author

Sutton, A. B., Rourke, P. M. C., Taufour, V., McCollam, A., Lapertot, G., Knebel, G., Flouquet, J., and Julian, S. R.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We report a previously unobserved quantum oscillation frequency in YbRh2Si2. This is the first quantum oscillation that can definitely be assigned to the larger of the two major sheets of the Fermi surface predicted by band structure calculations. Previously observed frequencies were interpreted in terms of a large Fermi surface, which includes the Yb 4f-hole in the Fermi volume, that has been so strongly spin-split that it closely resembles the small Fermi surface, which does not include the Yb 4f -hole in the Fermi volume. The new frequency can also be incorporated into this picture, however there are some indications that the a need for more advanced energy band calculations., Comment: 5 pages, 3 figures, submitted to Physica Status Solidi on 24 September 2009, fixed lingering issues with figures

Published

2009

44. Suppression of hidden order in URu2Si2 under pressure and restoration in magnetic field

Author

Hassinger, E, Aoki, D, Bourdarot, F, Knebel, G, Taufour, V, Raymond, S, Villaume, A, and Flouquet, J

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity

Abstract

We describe here recent inelastic neutron scattering experiments on the heavy fermion compound URu2Si2 realized in order to clarify the nature of the hidden order (HO) phase which occurs below T_0 = 17.5 K at ambient pressure. The choice was to measure at a given pressure P where the system will go, by lowering the temperature, successively from paramagnetic (PM) to HO and then to antiferromagnetic phase (AF). Furthermore, in order to verify the selection of the pressure, a macroscopic detection of the phase transitions was also achieved in situ via its thermal expansion response detected by a strain gauge glued on the crystal. Just above P_x = 0.5 GPa, where the ground state switches from HO to AF, the Q_0 = (1, 0, 0) excitation disappears while the excitation at the incommensurate wavevector Q_1 = (1.4, 0, 0) remains. Thus, the Q_0 = (1, 0, 0) excitation is intrinsic only in the HO phase. This result is reinforced by studies where now pressure and magnetic field $H$ can be used as tuning variable. Above P_x, the AF phase at low temperature is destroyed by a magnetic field larger than H_AF (collapse of the AF Q_0 = (1, 0, 0) Bragg reflection). The field reentrance of the HO phase is demonstrated by the reappearance of its characteristic Q_0 = (1, 0, 0) excitation. The recovery of a PM phase will only be achieved far above H_AF at H_M approx 35 T. To determine the P-H-T phase diagram of URu2Si2, macroscopic measurements of the thermal expansion were realized with a strain gauge. The reentrant magnetic field increases strongly with pressure. Finally, to investigate the interplay between superconductivity (SC) and spin dynamics, new inelastic neutron scattering experiments are reported down to 0.4 K, far below the superconducting critical temperature T_SC approx 1.3 K as measured on our crystal by diamagnetic shielding., Comment: 5 pages, 7 figures, ICN 2009 conference proceedings

Published

2009

45. Mass Enhancement and Reentrant Ground State in Magnetic Field

Author

Miyake, A., Aoki, D., Knebel, G., Taufour, V., and Flouquet, J.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity

Abstract

Three different cases of magnetic field reentrant ground states in heavy fermion systems, URhGe, UGe$_2$ and CeRhIn$_5$ recently studied in Grenoble, are discussed. URhGe is a ferromagnetic superconductor with reentrace of superconductivity under magnetic field ($H$) which is associated to the spin reorientation field. UGe$_2$ is a ferromagnetic superconductor with an enhancement of the upper critical field $H_{c2}$ of superconductivity at its metamagnetic transition between 2 ferromagnetic phases. CeRhIn$_5$ is a superconductor with $H$ reentrant antiferromagnetism. We analyze the links between the $H$ enhancement of the different contributions to the effective mass and the field reentrant phase., Comment: 4 pages, submitted to ICM 2009

Published

2009

46. Electronic stripe patterns near the fermi level of tetragonal Fe(Se,S)

Author

Walker, M., primary, Scott, K., additional, Boyle, T. J., additional, Byland, J. K., additional, Bötzel, S., additional, Zhao, Z., additional, Day, R. P., additional, Zhdanovich, S., additional, Gorovikov, S., additional, Pedersen, T. M., additional, Klavins, P., additional, Damascelli, A., additional, Eremin, I. M., additional, Gozar, A., additional, Taufour, V., additional, and da Silva Neto, E. H., additional

Published

2023

47. Magnetic structure and Kondo lattice behavior in CeVGe3 : An NMR and neutron scattering study

Author

Chaffey, C., primary, Wu, H. C., additional, Jin, Hanshang, additional, Sherpa, P., additional, Klavins, Peter, additional, Avdeev, M., additional, Aji, S., additional, Shimodate, R., additional, Nawa, K., additional, Sato, T. J., additional, Taufour, V., additional, and Curro, N. J., additional

Published

2023

48. A signature of hidden order in URu2Si2 : the excitation at the wavevector Q0 = (100)

Author

Villaume, A., Bourdarot, F., Hassinger, E., Raymond, S., Taufour, V., Aoki, D., and Flouquet, J.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Simultaneous neutron-scattering and thermal expansion measurements on the heavy-fermion superconductor URu2Si2 under hydrostatic pressure of 0.67 GPa have been performed in order to detect the successive paramagnetic, hidden order, and large moment antiferromagnetic phases on cooling. The temperature dependence of the sharp low energy excitation at the wavevector Q_0=(100) shows that this excitation is clearly a signature of the hidden order state. In the antiferromagnetic phase, this collective mode disappears. The higher energy excitation at the incommensurate wavevector Q_1=(1.4,0,0) persists in the antiferromagnetic phase but increases in energy. The collapse of the inelastic neutron scattering at Q_0 coincides with the previous observation of the disappearance of superconductivity., Comment: 5 figures, 4 pages

Published

2008

49. Electrical resistivity study of CeZn11: Magnetic field and pressure phase diagram up to 5 GPa

Author

Taufour, V, Hodovanets, H, Kim, SK, Bud'Ko, SL, and Canfield, PC

Subjects

Fluids & Plasmas, Physical Sciences, Chemical Sciences, Engineering

Abstract

Thorough resistivity measurements on single crystals of CeZn11 under pressure p and magnetic field H are presented. At ambient pressure, CeZn11 orders antiferromagnetically at TN=2 K. The pressure dependence of the resistivity reveals an increase of the Kondo effect. We determine the pressure evolution of the magnetic exchange interaction between conduction and localized 4f electrons. It qualitatively reproduces the pressure evolution of the magnetic ordering temperature TO1 (with T O1=TN at ambient pressure). In addition to TO1, a new anomaly TO2 appears under pressure. Both anomalies are found to increase with applied pressure up to 4.9 GPa, indicating that CeZn 11 is far from a pressure induced quantum critical point. Complex T-H phase diagrams are obtained under pressure which reveal the instability of the ground state in this compound. © 2013 American Physical Society.

Published

2013

50. Details of sample dependence and transport properties of URu 2Si2

Author

Matsuda, TD, Hassinger, E, Aoki, D, Taufour, V, Knebel, G, Tateiwa, N, Yamamoto, E, Haga, Y, Onuki, Y, Fisk, Z, and Flouquet, J

Subjects

resistivity, specific heat, superconductivity, hidden order, URu2Si2, cond-mat.str-el, cond-mat.supr-con, General Physics, Mathematical Sciences, Physical Sciences

Abstract

Resistivity and specific heat measurements were performed in the low carrier unconventional superconductor URu2Si2 on various samples with very different qualities. The superconducting transition temperature (TSC) and the hidden order transition temperature (T HO) of these crystals were evaluated as a function of the residual resistivity ratio (RRR). In high quality single crystals the resistivity does not seem to follow a T2 dependence above TSC, indicating that the Fermi liquid regime is restricted to low temperatures. However, an analysis of the isothermal longitudinal magnetoresistivity points out that the T2 dependence may be "spoiled" by residual inhomogeneous superconducting contribution. We discuss a possible scenario concerning the distribution of TSC related with the fact that the hidden order phase is very sensitive to the pressure inhomogeneity. © 2011 The Physical Society of Japan.

Published

2011