13,361 research outputs found

    Coexistence of superconductivity and antiferromagnetism in self-doped bilayer t-t'-J model

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    A self-doped bilayer t-t'-J model of an electron- and a hole-doped planes is studied by the slave-boson mean-field theory. A hopping integral between the differently doped planes, which are generated by a site potential, are renormalized by the electron-electron correlation. We find coexistent phases of antiferromagnetic (AFM) and superconducting orders, although the magnitudes of order parameters become more dissimilar in the bilayer away from half-filling. Fermi surfaces (FS's) with the AFM order show two pockets around the nodal and the anti-nodal regions. These results look like a composite of electron- and hole-doped FS's. In the nodal direction, the FS splitting is absent even in the bilayer system, since one band is flat due to the AFM order.Comment: 6 pages, 4 figure

    Interlayer couplings and the coexistence of antiferromagnetic and d-wave pairing order in multilayer cuprates

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    A more extended low density region of coexisting uniform antiferromagnetism and d-wave superconductivity has been reported in multilayer cuprates, when compared to single or bilayer cuprates. This coexistence could be due to the enhanced screening of random potential modulations in inner layers or to the interlayer Heisenberg and Josephson couplings. A theoretical analysis using a renormalized mean field theory, favors the former explanation. The potential for an improved determination of the antiferromagnetic and superconducting order parameters in an ideal single layer from zero field NMR and infrared Josephson plasma resonances in multilayer cuprates is discussed.Comment: 6 pages, 2 figure

    FFT-LB modeling of thermal liquid-vapor systems

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    We further develop a thermal LB model for multiphase flows. In the improved model, we propose to use the FFT scheme to calculate both the convection term and external force term. The usage of FFT scheme is detailed and analyzed. By using the FFT algorithm spatiotemporal discretization errors are decreased dramatically and the conservation of total energy is much better preserved. A direct consequence of the improvement is that the unphysical spurious velocities at the interfacial regions can be damped to neglectable scale. Together with the better conservation of total energy, the more accurate flow velocities lead to the more accurate temperature field which determines the dynamical and final states of the system. With the new model, the phase diagram of the liquid-vapor system obtained from simulation is more consistent with that from theoretical calculation. Very sharp interfaces can be achieved. The accuracy of simulation results are also verified by the Laplace law. The FFT scheme can be easily applied to other models for multiphase flows.Comment: 34 pages, 21 figure

    A nationwide survey of privatized firms in China

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    This descriptive study is based on a nationwide survey of privatization in China. Between 1995 and 2005, close to 100,000 firms with 11.4 trillion RMB in assets were privatized in China. This privatization process encompassed two-thirds of state-owned enterprises and state assets. Privatization in China has created concentrated private ownership and greatly changed corporate governance. After privatization, the state has withdrawn from firms’ daily decision making. Soft budget constraints have been substantially hardened. Firms have become more efficient and more profitable.postprin

    What makes privatization work? The case of China

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    Using a unique hand-collected nationwide survey, this paper studies China’s privatization, by far the largest one in human history. We find that privatization in China has improved performance, but only for firms bought out by managers (MBOs). Consistent with improved performance, MBO firms are less likely be influenced by the state in their daily operation and are more likely to take various restructuring measures. We also find city governments with stronger fiscal disciplines and with less political burdens of disposing laid-off works tend to use the MBO method to privatize. Our empirical design deals with the selection issues by applying a difference-in-difference approach and an IV approach.postprin

    Experimental verification of the "rainbow" trapping effect in plasmonic graded gratings

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    We report the first experimental observation of trapped rainbow1 in graded metallic gratings2-4, designed to validate theoretical predictions for this new class of plasmonic structures. One-dimensional tapered gratings were fabricated and their surface dispersion properties tailored by varying the grating period and depth, whose dimensions were confirmed by atomic force microscopy. Reduced group velocities and the plasmonic bandgap were observed. Direct measurements on graded grating structures show that light of different wavelengths in the 500-700nm region is "trapped" at different positions along the grating, consistent with computer simulations, thus verifying the "rainbow" trapping effect. The trapped rainbow effect offers exciting pathways for optical information storage and optical delays in photonic circuits at ambient temperature

    The new radiation-hard optical links for the ATLAS pixel detector

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    The ATLAS detector is currently being upgraded with a new layer of pixel based charged particle tracking and a new arrangement of the services for the pixel detector. These upgrades require the replacement of the opto-boards previously used by the pixel detector. In this report we give details on the design and production of the new opto-boards.Comment: Presentation at the DPF 2013 Meeting of the American Physical Society Division of Particles and Fields, Santa Cruz, California, August 13-17, 201
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