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1. Ferromagnetic Ordering in CeIr2B2: Transport, magnetization, specific heat and NMR studies

Author

Prasad, A., Anand, V. K., Paramanik, U. B., Hossain, Z., Sarkar, R., Oeschler, N., Baenitz, M., and Geibel, C.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We present a complete characterization of ferromagnetic system CeIr2B2 using powder x-ray diffraction XRD, magnetic susceptibility chi(T), isothermal magnetization M(H), specific heat C(T), electrical resistivity rho(T,H), and thermoelectric power S(T) measurements. Furthermore 11B NMR study was performed to probe the magnetism on a microscopic scale. The chi(T), C(T) and rho(T) data confirm bulk ferromagnetic ordering with Tc = 5.1 K. Ce ions in CeIr2B2 are in stable trivalent state. Our low-temperature C(T) data measured down to 0.4 K yield Sommerfeld coefficient gamma = 73(4) mJ/molK2 which is much smaller than the previously reported value of gamma = 180 mJ/molK2 deduced from the specific heat measurement down to 2.5 K. For LaIr2B2 gamma = 6(1) mJ/molK2 which implies the density of states at the Fermi level D(EF) = 2.54 states/(eV f.u.) for both spin directions. The renormalization factor for quasi-particle density of states and hence for quasi-particle mass due to 4f correlations in CeIr2B2 is 12. The Kondo temperature TK ~ 4 K is estimated from the jump in specific heat of CeIr2B2 at Tc. Both C(T) and rho(T) data exhibit gapped-magnon behavior in magnetically ordered state with an energy gap Eg ~ 3.5 K. The rho data as a function of magnetic field H indicate a large negative magnetoresistance (MR) which is highest for T = 5 K.While at 5 K the negative MR keeps on increasing up to 10 T, at 2 K an upturn is observed near H = 3.5 T. On the other hand, the thermoelectric power data have small absolute values (S ~ 7 {\mu}V/K) indicating a weak Kondo interaction. A shoulder in S(T) at about 30 K followed by a minimum at ~ 10 K is attributed to crystal electric field (CEF) effects and the onset of magnetic ordering. 11B NMR line broadening provides strong evidence of ferromagnetic correlations below 40 K., Comment: 10 pages, 11 figures

Published
2012
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2. Electrical resistivity ofYb(Rh1-xCox)2Si2 single crystals at low temperatures

Author

Friedemann, S., Oeschler, N., Krellner, C., Geibel, C., and Steglich, F.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We report low-temperature measurements of the electrical resistivity of Yb(Rh1-xCox)2Si2 single crystals with 0 <= x <= 0.12. The isoelectronic substitution of Co on the Rh site leads to a decrease of the unit cell volume which stabilizes the antiferromagnetism. Consequently, the antiferromagnetic transition temperature increases upon Co substitution. For x = 0.07 Co content a subsequent low-temperature transition is observed in agreement with susceptibility measurements and results on YbRh2Si2 under hydrostatic pressure. Above the Neel transition the resistivity follows a non-Fermi liquid behavior similar to that of YbRh2Si2., Comment: 4 pages, submitted to SCES08

Published
2009
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3. Violation of critical universality at the antiferromagnetic phase transition of YbRh2Si2

Author

Krellner, C., Hartmann, S., Pikul, A., Oeschler, N., Donath, J. G., Geibel, C., Steglich, F., and Wosnitza, J.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We report on precise low-temperature specific-heat measurements, C(T), of YbRh2Si2 in the vicinity of the antiferromagnetic phase transition on a single crystal of superior quality (RRR 150). We observe a very sharp peak at T_N=72mK with absolute values as high as C/T=8J/molK^2. A detailed analysis of the critical exponent \alpha around T_N reveals \alpha=0.38 which differs significantly from those of the conventional universality classes in the Ginzburg-Landau theory, where \alpha<0.11. Thermal-expansion measurements corroborate this large positive critical exponent. These results provide insight into the nature of the critical magnetic fluctuations at a temperature-driven phase transition close to a quantum critical point., Comment: Accepted for PRL

Published
2009
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4. Low-temperature thermopower study of YbRh2Si2

Author

Hartmann, S., Oeschler, N., Krellner, C., Geibel, C., and Steglich, F.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The heavy-fermion compound YbRh2Si2 exhibits an antiferromagnetic (AFM) phase transition at an extremely low temperature of TN = 70 mK. Upon applying a tiny magnetic field of Bc = 60 mT the AFM ordering is suppressed and the system is driven toward a field-induced quantum critical point (QCP). Here, we present low-temperature thermopower S(T) measurements of high-quality YbRh2Si2 single crystals down to 30 mK. S(T) is found negative with comparably large values in the paramagnetic state. In zero field no Landau-Fermi-liquid (LFL) like behavior is observed within the magnetically ordered phase. However, a sign change from negative to positive appears at lowest temperatures on the magnetic side of the QCP. For higher fields B > Bc a linear extrapolation of S to zero clearly evidences the recovery of LFL regime. The crossover temperature is sharply determined and coincides perfectly with the one derived from resistivity and specific heat investigations., Comment: LT25 conference proceedings in Journal of Physics: Conference Series

Published
2008
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5. Field dependence of the thermopower of CeNiSn

Author

Koehler, U., Sun, P., Oeschler, N., Takabatake, T., Paschen, S., and Steglich, F.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Previously measured thermopower data of CeNiSn exhibit a significant sample dependence and non-monotonous behavior in magnetic fields. In this paper we demonstrate that the measured thermopower S(T) may contain a contribution from the huge Nernst coefficient of the compound, even in moderate fields of 2 T. A correction for this effect allows to determine the intrinsic field dependence of S(T). The observed thermopower behavior can be understood from Zeeman splitting of a V-shaped pseudogap in magnetic fields., Comment: 4 pages, accepted for Journal of Physics: Conference Series, proceedings of LT 25

Published
2008
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6. Hall effect measurements on YbRh2Si2 and relatives in the light of electronic structure calculations

Author

Friedemann, S., Oeschler, N., Wirth, S., Krellner, C., Geibel, C., Steglich, F., MaQuilon, S., Fisk, Z., Paschen, S., and Zwicknagl, G.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We report experimental and theoretical investigations of the Hall effect in YbRh2Si2 and its reference compounds LuRh2Si2 and YbIr2Si2. Based on band-structure calculations we identify two bands dominating the Hall coefficient in all these compounds. For the case of LuRh2Si2 - the non-magnetic reference compound of YbRh2Si2 - the temperature dependence of the Hall coefficient is described quantitatively to arise from two hole-like bands. For YbIr2Si2 and YbRh2Si2, renormalized band calculations yield two bands of opposite character. In YbRh2Si2 these two bands almost compensate each other. We present strong indications that the sample dependences of the low-temperature Hall coefficient observed for YbRh2Si2 arise from slight variations of the relative scattering rates of the two bands. Minute changes of the composition appear to be the origin., Comment: 12 pages, 8 figures

Published
2008
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7. Energy scales of Lu(1-x)Yb(x)Rh2Si2 by means of thermopower investigations

Author

Köhler, U., Oeschler, N., Steglich, F., Maquilon, S., and Fisk, Z.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We present the thermopower S(T) and the resistivity rho(T) of Lu(1-x)Yb(x)Rh2Si2 in the temperature range 3 K < T < 300 K. S(T) is found to change from two minima for dilute systems (x < 0.5) to a single large minimum in pure YbRh2Si2. A similar behavior has also been found for the magnetic contribution to the resistivity rho_mag(T). The appearance of the low-T extrema in S(T) and rho_mag(T) is attributed to the lowering of the Kondo scale with decreasing x. The evolution of the characteristic energy scales for both the Kondo effect and the crystal electric field splitting are deduced. An extrapolation allows to estimate the Kondo temperature of YbRh2Si2 to 29 K., Comment: 15 pages, 4 figures, accepted in Phys. Rev. B

Published
2008
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8. Heat Capacity of Na$_{0.3}$CoO$_{2}$$\cdot$1.3H$_{2}$O, a New Two-Gap Superconductor: Comparison with the Heat Capacity of MgB$_2$

Author

Oeschler, N., Fisher, R. A., Phillips, N. E., Gordon, J. E., Foo, M. L., and Cava, R. J.

Subjects
Condensed Matter - Superconductivity
Abstract

The superconducting-state heat capacity of Na$_{0.3}$CoO$_{2}$$\cdot$1.3H$_{2}$O shows unusual, marked deviations from BCS theory, at all temperatures. At low temperatures the heat capacity has the $T^2$ dependence characteristic of line nodes in the energy gap, rather than the exponential temperature dependence of a fully gapped, conventional superconductor. At temperatures of the order of one fifth of the critical temperature and above, the deviations are strikingly similar to those of MgB$_2$, which are known to be a consequence of the existence of substantially different energy gaps on different sheets of the Fermi surface. A two-gap fit to the Na$_{0.3}$CoO$_{2}$$\cdot$1.3H${_2}$O data gives gap amplitudes of 45% and 125% of the BCS value, on parts of the Fermi surface that contribute, respectively, 45% and 55% to the normal-state density of states. The temperature of the onset of the transition to the vortex state is independent of magnetic field, which shows the presence of unusually strong fluctuations., Comment: to appear in Chinese Journal of Physics

Published
2004

9. Divergence of the Grueneisen Ratio at Quantum Critical Points in Heavy Fermion Metals

Author

Kuechler, R., Oeschler, N., Gegenwart, P., Cichorek, T., Neumaier, K., Tegus, O., Geibel, C., Mydosh, J. A., Steglich, F., Zhu, Lijun, and Si, Qimiao

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

We present low-temperature volume thermal expansion, $\beta$, and specific heat, $C$, measurements on high-quality single crystals of CeNi2Ge2 and YbRh2(Si$_{0.95}$Ge$_{0.05}$)$_2$ which are located very near to quantum critical points. For both systems, $\beta$ shows a more singular temperature dependence than $C$, and thus the Grueneisen ratio ${\Gamma \propto \beta/C}$ diverges as T --> 0. For CeNi2Ge2, our results are in accordance with the spin-density wave (SDW) scenario for three-dimensional critical spin-fluctuations. By contrast, the observed singularity in YbRh2$(Si$_{0.95}$Ge$_{0.05}$)$_2$ cannot be explained by the itinerant SDW theory but is qualitatively consistent with a locally quantum critical picture., Comment: 11 pages, 4 figures

Published
2003
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10. Non-Fermi liquid normal state of the Heavy Fermion superconductor UBe13

Author

Gegenwart, P., Langhammer, C., Helfrich, R., Oeschler, N., Lang, M., Kim, J. S., Stewart, G. R., and Steglich, F.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Non-Fermi liquid (NFL) behavior in the normal state of the heavy-fermion superconductor UBe13 is studied by means of low-temperature measurements of the specific heat, C, and electrical resistivity, \rho, on a high-quality single crystal in magnetic fields up to 15.5 T. At B=0, unconventional superconductivity forms at Tc=0.9 K out of an incoherent state, characterized by a large and strongly temperature dependent \rho(T). In the magnetic field interval 4 T \leq B \leq 10 T, \rho(T) follows a T^3/2 behavior for Tc(B)\leq T \leq 1 K, while \rho is proportional to T at higher temperatures. Corresponding Non-Fermi liquid behavior is observed in C/T as well and hints at a nearby antiferromagnetic (AF) quantum critical point (QCP) covered by the superconducting state. We speculate that the suppression of short-range AF correlations observed by thermal expansion and specific heat measurements below T_L \simeq 0.7 K (B=0) yields a field-induced QCP, T_L \to 0, at B=4.5 T., Comment: Presented at the M2S-2003 conference in Rio / Brazil

Published
2003
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11. Magnetism and unconventional superconductivity in Ce$_n$M$_m$In$_{3n+2m}$ heavy-fermion crystals

Author

Thompson, J. D., Nicklas, M., Bianchi, A., Movshovich, R., Llobet, A., Bao, W., Malinowski, A., Hundley, M. F., Moreno, N. O., Pagliuso, P. G., Sarrao, J. L., Nakatsuji, S., Fisk, Z., Borth, R., Lengyel, E., Oeschler, N., Sparn, G., and Steglich, F.

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

We review magnetic, superconducting and non-Fermi-liquid properties of the structurally layered heavy-fermion compounds Ce$_n$M$_m$In$_{3n+2m}$ (M=Co, Rh, Ir). These properties suggest d-wave superconductivity and proximity to an antiferromagetic quantum-critical point., Comment: submitted 23rd International Conference on Low Temperature Physics (LT-23), Aug. 2002

Published
2002
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12. First order superconducting phase transition in CeCoIn$_5$

Author

Bianchi, A., Movshovich, R., Oeschler, N., Gegenwart, P., Steglich, F., Thompson, J. D., Pagliuso, P. G., and Sarrao, J. L.

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

We investigated the magnetic field dependence of the superconducting phase transition in heavy fermion CeCoIn_5 (T_c = 2.3 K) using specific heat, magneto-caloric effect, and thermal expansion measurements. The superconducting transition becomes first order when the magnetic field is oriented along the 001 crystallographic direction with a strength greater that 4.7 T, and transition temperature below T_0 ~ 0.31 T_c. The change from second order at lower fields is reflected in strong sharpening of both specific heat and thermal expansion anomalies associated with the phase transition, a strong magnetocaloric effect, and a step-like change in the sample volume. The first order superconducting phase transition in CeCoIn_5 is caused by Pauli limiting in type-II superconductors, and was predicted theoretically in the mid 1960s. We do not see evidence for the inhomogeneous Fulde-Ferrell-Larkin-Ovchinnikov (FFLO) superconducting state (predicted by an alternative theory also dating back to mid-60's) in CeCoIn_5 with field H || [001]., Comment: 5 pages, includes three figures

Published
2002
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13. Magnetic and Electronic Quantum Criticality in YbRh2Si2

Author

Friedemann, S, Westerkamp, T, Brando, M, Oeschler, N, Gegenwart, P, Krellner, C, Geibel, C, MaQuilon, S, Fisk, Z, Steglich, F, and Wirth, S

Subjects
Heavy fermion metals, Quantum criticality, Kondo breakdown, Chemical pressure, Mathematical Physics, Classical Physics, Condensed Matter Physics, General Physics
Abstract

The unconventional nature of the quantum criticality in YbRh 2Si 2 is highlighted on the basis of magnetoresistivity and susceptibility measurements. Results obtained under chemical pressure realized by isoelectronic substitution on the rhodium site are presented. These results illustrate the position of the T*-line associated with a breakdown of the Kondo effect near the antiferromagnetic instability in the low-temperature phase diagram. Whereas at zero temperature the Kondo breakdown and the antiferromagnetic quantum critical point coincide in the proximity of the stoichiometric compound, they are seen to be detached under chemical pressure: For positive chemical pressure the magnetically ordered phase extends beyond the T*(B)-line. For sufficiently high negative pressure the T*(B)-line is separated from the magnetically ordered phase. From our detailed analysis we infer that the coincidence is retained at small iridium concentrations, i.e., at small negative chemical pressure. We outline further measurements which may help to clarify the detailed behavior of the two instabilities. © 2010 Springer Science+Business Media, LLC.

Published
2010

14. Hall effect measurements and electronic structure calculations on YbRh 2 Si2 and its reference compounds LuRh2 Si 2 and YbIr2 Si2

Author

Friedemann, S, Wirth, S, Oeschler, N, Krellner, C, Geibel, C, Steglich, F, Maquilon, S, Fisk, Z, Paschen, S, and Zwicknagl, G

Subjects
Fluids & Plasmas, Physical Sciences, Chemical Sciences, Engineering
Abstract

We report experimental and theoretical investigations of the Hall effect in YbRh2 Si2 and its reference compounds LuRh2 Si2 and YbIr2 Si2. Based on band-structure calculations we identify two bands dominating the Hall coefficient in all these compounds. For the case of LuRh2 Si2 -the nonmagnetic reference compound of YbRh2 Si2 -the temperature dependence of the Hall coefficient is described quantitatively to arise from two holelike bands. For YbIr2 Si2 and YbRh2 Si2, renormalized band calculations yield two bands of opposite character. In YbRh2 Si2 these two bands almost compensate each other. We present strong indications that sample dependences of the low-temperature Hall coefficient observed for YbRh2 Si2 arise from slight variations in the relative scattering rates of the two bands. Minute changes in the composition appear to be the origin. The results of our band-structure calculations reveal that a transition of the 4f electrons from localized to itinerant leads to a decrease in the Hall coefficient. © 2010 The American Physical Society.

Published
2010

15. The crossed-field and single-field Hall effect in LuRh2Si2

Author

Friedemann, S, Oeschler, N, Wirth, S, Steglich, F, MaQuilon, S, and Fisk, Z

Subjects
cond-mat.str-el, Applied Physics, Condensed Matter Physics, Quantum Physics, Nanotechnology
Abstract

The Hall effect of LuRh2Si2 - the non-magnetic homologue of the heavy-fermion material YbRh2Si2 - is studied with two different setups: in the conventional single-field geometry, the field dependence is analyzed in terms of the differential Hall coefficient. Beyond that, the recently developed crossed-field experiment allows to examine the linear-response Hall coefficient as a function of magnetic field. The results reveal the expected analogy between both experiments which corroborates the equivalent findings in YbRh2Si2. This emphasizes the feasibility to investigate field-induced quantum critical points with both methods. Setup of the crossed-field Hall-effect experiment allows to examine the linear-response (with respect to the magnetic field B1) Hall coefficient as a function of tuning field B2. © 2010 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

Published
2010

16. Band-structure and anomalous contributions to the Hall effect of YbRh2Si2

Author

Friedemann, S, Oeschler, N, Krellner, C, Geibel, C, Wirth, S, Steglich, F, Paschen, S, MaQuilon, S, and Fisk, Z

Subjects
YbRh2Si2, LuRh2Si2, Hall effect, heavy fermion, non-Fermi liquid, quantum critical point, Condensed Matter Physics, Quantum Physics, Macromolecular and Materials Chemistry, General Physics
Abstract

We report on Hall effect measurements on YbRh2Si2 single crystals with different residual resistivity and on LuRh2Si2 single crystal. The temperature dependence of the linear-response Hall coefficient of YbRh2Si2 is described by the anomalous Hall effect and the normal contribution incorporating multi-band effects. Sample dependencies at low T are found and explained by slight changes in the charge-carrier concentrations. © 2007 Elsevier B.V. All rights reserved.

Published
2008

34. High temperature thermoelectric properties of the type-I clathrate Ba8AuxSi46-x.

Author

Candolfi, C., Aydemir, U., Baitinger, M., Oeschler, N., Steglich, F., and . Grin, Yu

Subjects
THERMOELECTRICITY, PHONONS, CLATHRATE compounds, COMPLEX compounds, MOLECULAR sieves
Abstract

The thermoelectric properties of the type-I clathrate Ba8AuxSi46-x (4.10 ≤ x ≤ 6.10) were characterized from 300 to 700 K. Increasing the Au concentration leads to a transition from an n-type (x < 5.43) to a p-type (x ≥ 5.43) electrical conduction. The experimental data are well described by a single-parabolic-band model assuming a single scattering mechanism of the charge carriers in this temperature range. The lattice thermal conductivity, inferred from degeneracy-adjusted Lorenz numbers, is low regardless of the composition. However, the measured values are significantly lower in the p-type samples possibly due to a combination of a higher degree of disorder in the crystal structure at high Au contents and an enhanced phonon-charge carrier coupling. Even though high thermopower values are achieved, the high electrical resistivity remains the main obstacle to push the dimensionless figure of merit ZT (∼0.2 at around 600 K for x = 5.59) beyond the level of the best Si-based clathrate compounds. [ABSTRACT FROM AUTHOR]

Published
2012
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35. Transport properties of the clathrate BaGe5.

Author

Candolfi, C., Aydemir, U., Ormeci, A., Carrillo-Cabrera, W., Burkhardt, U., Baitinger, M., Oeschler, N., Steglich, F., and Grin, Yu.

Subjects
CRYSTALLOGRAPHY, SEMICONDUCTOR research, CLATHRATE compounds, MAGNETIZATION, THERMAL conductivity
Abstract

We report on the synthesis, crystallographic and transport properties of the Zintl phase BaGe5, which crystallizes in a new clathrate-type structure. This compound was synthesized by the decomposition of the type-I clathrate Ba8Ge43[larger_open_square]3 subjected to annealing treatment at 623, 673 and 793 K. Electrical resistivity, thermopower and thermal conductivity measurements were performed in the temperature range 2 - 773 K and complemented by magnetization, specific heat and Hall experiments below room temperature. Additional information on the chemical bonding and electronic band structure in BaGe5 was obtained through the electron localizability indicator (ELI) and the total density of states, all calculated within the all-electron full-potential local orbital method (FLPO). In agreement with the chemical bonding and electronic band structure calculations, electrical resistivity and specific heat data show that BaGe5 is a semiconductor. The complex crystal structure of BaGe5 contributes to the low thermal conductivity which displays a conventional crystalline-like behavior. Further measurements were carried out on samples annealed at 623, 673 and 793 K for four up to 30 days to probe possible variations of the crystal structure and electronic properties as a function of the annealing temperature and time. Even though the annealing temperature does not alter the semiconducting nature of this material, differences in the absolute values of the transport properties were unveiled in samples annealed for short-time periods. These differences are significantly reduced in samples which underwent long-time annealing treatment even though the measured curves do not merge completely. [ABSTRACT FROM AUTHOR]

Published
2011
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36. Thermoelectric transport properties of highly oriented FeSb2 thin films.

Author

Sun, Y., Johnsen, S., Eklund, P., Sillassen, M., Bo\ttiger, J., Oeschler, N., Sun, P., Steglich, F., and Iversen, B. B.

Subjects
THERMOELECTRIC materials, MECHANICAL properties of thin films, ANTIMONY, FERROELECTRIC thin films, SPUTTERING (Physics), TRANSPORT theory, HALL effect
Abstract

Highly textured FeSb2 films were produced on quartz wafers by a sputtering method. Their resistivity and Seebeck coefficient (S) were measured and a maximum absolute value of S∼160 μV K-1 at 50 K was obtained. Hall measurements were employed to study the charge carrier concentrations and Hall mobilities of the FeSb2 films. By comparing with the transport properties of FeSb2 single crystals and an extrinsically doped FeSb1.98Te0.02 single crystal, the thermoelectric properties of the FeSb2 films are demonstrated to be dominated by the intrinsic properties of FeSb2 at a high charge carrier concentration. [ABSTRACT FROM AUTHOR]

Published
2009
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37. Thermoelectric transport properties of highly oriented Fe[Sb.sub.2] thin films

Author

Sun, Y., Johnsen, S., Eklund, P., Sillassen, M., Bottiger, J., Oeschler, N., Sun, P., Steglich, F., and Iversen, B.B.

Subjects
Hall effect -- Analysis, Iron alloys -- Electric properties, Iron alloys -- Thermal properties, Sputtering (Physics) -- Usage, Antimony -- Electric properties, Antimony -- Thermal properties, Electric currents -- Measurement, Physics
Abstract

The article studies the thermoelectric transport properties of highly oriented Fe[Sb.sub.2] thin films using sputtering method. Findings reveal that the thermoelectric properties of the Fe[Sb.sub.2] thin films are dominated by intrinsic properties of Fe[Sb.sub.2] at a high charge carrier concentration.

Published
2009

41. High temperature thermoelectric properties of the type-I clathrate Ba(8)Ni(x)Ge46(-x-y)square(y)

Author

Aydemir, U., Candolfi, Christophe, Ormeci, A., Baitinger, M., Oeschler, N., Steglich, F., Grin, Yu, Max-Planck-Institut für Chemische Physik fester Stoffe (CPfS), Max-Planck-Gesellschaft, Koç University, California Institute of Technology (CALTECH), Institut Jean Lamour (IJL), and Institut de Chimie du CNRS (INC)-Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS)

Subjects
[CHIM.INOR]Chemical Sciences/Inorganic chemistry
Abstract

International audience; Polycrystalline samples of the type-I clathrate Ba8NixGe46−x−y□y were synthesized for 0.2 ⩽ x ⩽ 3.5 by melt quenching and for 3.5 < x ⩽ 6.0 by melting with subsequent annealing at 700 °C. The maximum Ni content in the clathrate framework at this temperature was found to be x ≈ 4.2 atoms per unit cell. Thermoelectric and thermodynamic properties of the type-I clathrate were investigated from 300 to 700 K by means of electrical resistivity, thermopower, thermal conductivity and specific heat measurements. As the Ni content increases, the electronic properties gradually evolve from a metallic character (x

Published
2014

46. Energy scales of Lu(1-x)Yb(x)Rh2Si2 by means of thermopower investigations

Author

K��hler, U., Oeschler, N., Steglich, F., Maquilon, S., and Fisk, Z.

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

We present the thermopower S(T) and the resistivity rho(T) of Lu(1-x)Yb(x)Rh2Si2 in the temperature range 3 K < T < 300 K. S(T) is found to change from two minima for dilute systems (x < 0.5) to a single large minimum in pure YbRh2Si2. A similar behavior has also been found for the magnetic contribution to the resistivity rho_mag(T). The appearance of the low-T extrema in S(T) and rho_mag(T) is attributed to the lowering of the Kondo scale with decreasing x. The evolution of the characteristic energy scales for both the Kondo effect and the crystal electric field splitting are deduced. An extrapolation allows to estimate the Kondo temperature of YbRh2Si2 to 29 K., 15 pages, 4 figures, accepted in Phys. Rev. B

Published
2008

47. Anomalous critical behavior at the antiferromagnetic phase of YbRh2Si2

Author

Krellner, C., Hartmann, S., Pikul, A., Oeschler, N., Geibel, C., Wosnitza, J., and Steglich, F.

Abstract

Quantum phase transitions are one of the important topics in the understanding of condensed matter. These transitions are driven by quantum fluctuations in contrast to classical phase transitions which are accompanied by thermal fluctuations. Recently, the heavy fermion system YbRh2Si2 was intensively studied, because it is a clean and stoichiometric metal situated on the magnetic side (TN = 72 mK), but very close to a quantum critical point, which can be crossed by applying a tiny magnetic field. Therefore, this system presents both an antiferromagnetic phase transition driven by thermal fluctuations as well as pronounced quantum fluctuations due to the vicinity to the quantum phase transition. In this contribution, we show accurate measurements of the specific heat C around TN on a single crystal of highest quality (RRR ~ 150). We observe a very sharp peak at TN with absolute values as high as C/T = 8 J/molK2. A detailed analysis of the critical exponent α around TN reveals α = 0.37 which differs significantly from those of the conventional universality classes in the Landau theory α < 0.11. We will discuss in detail the analysis and possible mechanism.

Published
2008

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