10,609 research outputs found

    Time-dependent Ginzburg-Landau model for light-induced superconductivity in the cuprate LESCO

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    Cavalleri and coworkers have discovered evidence of light-induced superconductivity and related phenomena in several different materials. Here we suggest that some features may be naturally interpreted using a time-dependent Ginzburg-Landau model. In particular, we focus on the lifetime of the transient state in La1.675_{1.675}Eu0.2_{0.2}Sr0.125_{0.125}CuO4_4 (LESCO1/8_{1/8}), which is remarkably long below about 25 K, but exhibits different behavior at higher temperature.Comment: 5 pages, accepted by European Journal of Physics: Special Topic

    Quasiparticles as composite objects in the RVB superconductor

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    We study the nature of the superconducting state, the origin of d-wave pairing, and elementary excitations of a resonating valence bond (RVB) superconductor. We show that the phase string formulation of the t-J model leads to confinement of bare spinon and holon excitations in the superconducting state, though the vacuum is described by the RVB state. Nodal quasiparticles are obtained as composite excitations of spinon and holon excitations. The d-wave pairing symmetry is shown to arise from short range antiferromagnetic correlations

    Theory of emission from an active photonic lattice

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    The emission from a radiating source embedded in a photonic lattice is calculated. The analysis considers the photonic lattice and free space as a combined system. Furthermore, the radiating source and electromagnetic field are quantized. Results show the deviation of the photonic lattice spectrum from the blackbody distribution, with intracavity emission suppressed at certain frequencies and enhanced at others. In the presence of rapid population relaxation, where the photonic lattice and blackbody populations are described by the same equilibrium distribution, it is found that the enhancement does not result in output intensity exceeding that of the blackbody at the same frequency. However, for slow population relaxation, the photonic lattice population has a greater tendency to deviate from thermal equilibrium, resulting in output intensities exceeding those of the blackbody, even for identically pumped structures.Comment: 19 pages, 11 figure

    Maxima and minima of complete and incomplete stationary sequences

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    In the seminal contribution [R. A. Davis, Maxima and minima of stationary sequences, Ann. Probab. 7(3) (1979), pp. 453-460.] the joint weak convergence of maxima and minima of weakly dependent stationary sequences is derived under some mild asymptotic conditions. In this paper we address additionally the case of incomplete samples assuming that the average proportion of incompleteness converges in probability to some random variable P. We show the joint weak convergence of the maxima and the minima of both complete and incomplete samples. It turns out that the maxima and the minima are asymptotically independent when P is a deterministic constant

    Casimir Force for Arbitrary Objects Using the Argument Principle and Boundary Element Methods

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    Recent progress in the simulation of Casimir forces between various objects has allowed traditional computational electromagnetic solvers to be used to find Casimir forces in arbitrary three-dimensional objects. The underlying theory to these approaches requires knowledge and manipulation of quantum field theory and statistical physics. We present a calculation of the Casimir force using the method of moments via the argument principle. This simplified derivation allows greater freedom in the moment matrix where the argument principle can be used to calculate Casimir forces for arbitrary geometries and materials with the use of various computational electromagnetic techniques.Comment: 6 pages, 2 figure

    LL-valley electron gg factor in bulk GaAs and AlAs

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    We study the Land\'e gg-factor of conduction electrons in the LL-valley of bulk GaAs and AlAs by using a three-band kp\mathbf{k}\cdot\mathbf{p} model together with the tight-binding model. We find that the LL-valley gg-factor is highly anisotropic, and can be characterized by two components, gg_{\perp} and gg_{\|}. gg_{\perp} is close to the free electron Land\'e factor but gg_{\|} is strongly affected by the remote bands. The contribution from remote bands on gg_{\|} depends on how the remote bands are treated. However, when the magnetic field is in the Voigt configuration, which is widely used in the experiments, different models give almost identical gg-factor.Comment: 4 pages, 1 figure, To be published in J. App. Phys. 104, 200
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