341 research outputs found

    Magnetic scaling in cuprate superconductors

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    We determine the magnetic phase diagram for the YBa2_2Cu3_3O6+x_{6+x} and La2−x_{2-x}Srx_xCuO4_4 systems from various NMR experiments. We discuss the possible interpretation of NMR and neutron scattering experiments in these systems in terms of both the non-linear σ\sigma-model of nearly localized spins and a nearly antiferromagnetic Fermi liquid description of magnetically coupled quasiparticles. We show for both the 2:1:4 and 1:2:3 systems that bulk properties, such as the spin susceptibiltiy, and probes at the antiferromagnetic wavevector (π,π)(\pi, \pi), such as 63T1^{63}T_1, the 63Cu ^{63}Cu spin relaxation time, both display a crossover at a temperature TcrT_{cr}, which increases linearly with decreasing hole concentration, from a non-universal regime to a z=1z=1 scaling regime characterized by spin pseudogap behavior. We pursue the consequences of the ansatz that TcrT_{cr} corresponds to a fixed value of the antiferromagnetic correlation length, ξ\xi, and show how this enables one to extract the magnitude and temperature dependence of ξ\xi from measurements of T1T_1 alone. We show that like TcrT_{cr}, the temperature T∗T_* which marks a crossover at low temperatures from the z=1z=1 scaling regime to a quantum disordered regime, exhibits the same dependence on doping for the 2:1:4 and 1:2:3 systems, and so arrive at a unified description of magnetic behavior in the cuprates, in which the determining factor is the planar hole concentration. We apply our quantitative results for YBa2_2Cu3_3O7_7 to the recent neutron scattering experiments of Fong {\em et al}, and show that the spin excitation near 40meV40 meV measured by them corresponds to a spin gap excitation, which is overdamped in the normal state, but becomes visible in the superconducting state.Comment: 18 pages, RevTex, 18 figures are available upon request; submitted to Phys. Rev.

    Unconventional properties of superconducting cuprates

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    We present an explanation of the unusual peak/dip/hump features observed in photoemission experiments on Bi2212 at T≪TcT \ll T_c. We argue that these features arise from the interaction of the fermionic quasi-particles with overdamped spin fluctuations. We show that the strong spin-fermion interaction combined with the feedback effect on the spin damping due to superconductivity yields a Fermi-liquid form of the fermionic spectral function for ω<2Δ\omega < 2 \Delta where Δ\Delta is the maximum value of the superconducting gap, and a non-Fermi-liquid form for ω>2Δ\omega > 2 {\Delta}. In the Fermi-liquid regime, the spectral function A(kF,ω)A({\bf k}_F,\omega) displays a quasiparticle peak at ω=Δ\omega = {\Delta}; in the non-Fermi-liquid regime it possesses a broad maximum (hump) at ω≫Δ\omega \gg {\Delta}. In between the two regimes, the spectral function has a dip at ω∼2Δ\omega \sim 2 {\Delta}. We argue that our theory also explains the tunneling data for the superconducting density of states.Comment: 4 pages, RevTeX, 4 eps figures embedded in the tex

    Pairing state in multicomponent superconductors

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    We use the microscopic weak coupling theory to predict the pairing state in superconductors of cubic, hexagonal, or tetragonal symmetry, where the order parameter is multicomponent, i.e., transforms according to either a 2-dimensional or a 3-dimensional representation of the crystal point group. We show that the superconducting phase usually breaks the time-reversal symmetry for singlet multicomponent superconductors. The superconducting order parameter for triplet superconductors in most cases turns out to be non-magnetic.Comment: 7 page

    Phases of the 2D Hubbard model at low doping

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    We show that the planar spiral phase of the 2D Hubbard model at low doping, x, is unstable towards a noncoplanar spin configuration. The novel equilibrium state we found at low doping is incommensurate with the inverse pitch of the spiral varying as x^(1/2), but nevertheless has a dominant peak in the susceptibility at (\pi,\pi). Relevance to the NMR and neutron scattering experiments in La_2-xSr_xCuO_4 is disccussed.Comment: 12 pages, emtex v.3.

    Theory of Unconventional Spin Density Wave: A Possible Mechanism of the Micromagnetism in U-based Heavy Fermion Compounds

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    We propose a novel spin density wave (SDW) state as a possible mechanism of the anomalous antiferromagnetism, so-called the micromagnetism, in URu_2Si_2 below 17.5[K]. In this new SDW, the electron-hole pair amplitude changes its sign in the momentum space as in the case of the unconventional superconductivity. It is shown that this state can be realized in an extended Hubbard model within the mean field theory. We also examine some characteristic properties of this SDW to compare with the experimental results. All these properties well explain the unsolved problem of the micromagnetism.Comment: REVTeX v3.1, 4 pages, 5 figure

    On superconducting and magnetic properties of iron-oxypnictides

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    Pairing symmetry in oxypnictides, a new family of multiband high-Tc superconductors, is partially imposed by the positions of multiple Fermi pockets, which itself can give rise to new order parameters, such as s+,- states or the state of dx^2-y^2 symmetry. Other pairing states may appear on small pockets for long range interactions, but they are expected to be sensitive to defects. We identify the competing antiferromagnetic order with the triplet exciton transition in the semi- metallic background and discuss whether its coexistence with superconductivity explains the doping dependence of Tc.Comment: Fig1b replace

    Correlation length in cuprates deduced from the impurity-induced magnetization

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    We report a new multi-nuclei based NMR method which allows us to image the staggered polarization induced by nonmagnetic Li impurities in underdoped O6.6 and slightly overdoped O7 YBa2Cu3O6+y above T_C. The spatial extension of the polarization xi_imp approximately follows a Curie law, increasing up to six lattice constants at T=80K at O6.6 in the pseudogap regime. Near optimal doping, the staggered magnetization has the same shape, with xi_imp reduced by a factor 2. xi_imp is argued to reveal the intrinsic magnetic correlation length of the pure system. It is found to display a smooth evolution through the pseudogap regime.Comment: 8 latex pages + 8 figures, to appear in Physical Review B, this resubmitted version is twice longer than the previous one : we detail here our method to determine the impurity-induced magnetizatio

    Temperature dependence of magnetism near defects in SrB_6

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    The T-dependence of magnetic moments in SrB_6 is studied through spin-polarized band calculations for a supercell of Sr_{27}B_{156} containing a B_6 vacancy. The magnetic moment decays rather quickly with T despite the fact that only electronic Fermi-Dirac effects are included. This result and the T-dependence of moments near a La impurity can hardly explain the reports of a very high Curie temperature in hexaborides, but suggest that the magnetism is caused by some other type of impurity.Comment: 3 pages, 2 figure

    Impurity correlations in dilute Kondo alloys

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    The single impurity Kondo model is often used to describe metals with dilute concentrations (n_i) of magnetic impurities. Here we examine how dilute the impurities must be for this to be valid by developing a virial expansion in impurity density. The O(n_i^2) term is determined from results on the 2-impurity Kondo problem by averaging over the RKKY coupling. The non-trivial fixed point of the 2-impurity problem could produce novel singularities in the heat capacity of dilute alloys at O(n_i^2).Comment: 6 pages, no figure

    Superconductivity in an organic insulator at very high magnetic fields

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    We investigate by electrical transport the field-induced superconducting state (FISC) in the organic conductor λ\lambda-(BETS)2_2FeCl4_4. Below 4 K, antiferromagnetic-insulator, metallic, and eventually superconducting (FISC) ground states are observed with increasing in-plane magnetic field. The FISC state survives between 18 and 41 T, and can be interpreted in terms of the Jaccarino-Peter effect, where the external magnetic field {\em compensates} the exchange field of aligned Fe3+^{3+} ions. We further argue that the Fe3+^{3+} moments are essential to stabilize the resulting singlet, two-dimensional superconducting stateComment: 9 pages 3 figure
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