9,843 research outputs found

    Theory of Orbital Ordering, Fluctuation and Resonant X-ray Scattering in Manganites

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    A theory of resonant x-ray scattering in perovskite manganites is developed by applying the group theory to the correlation functions of the pseudospin operators for the orbital degree of freedom. It is shown that static and dynamical informations of the orbital state are directly obtained from the elastic, diffuse and inelastic scatterings due to the tensor character of the scattering factor. We propose that the interaction and its anisotropy between orbitals are directly identified by the intensity contour of the diffuse scattering in the momentum space.Comment: 4 pages, 1 figur

    Entangled-photon generation in nano-to-bulk crossover regime

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    We have theoretically investigated a generation of entangled photons from biexcitons in a semiconductor film with thickness in nano-to-bulk crossover regime. In contrast to the cases of quantum dots and bulk materials, we can highly control the generated state of entangled photons by the design of peculiar energy structure of exciton-photon coupled modes in the thickness range between nanometers and micrometers. Owing to the enhancement of radiative decay rate of excitons at this thickness range, the statistical accuracy of generated photon pairs can be increased beyond the trade-off problem with the signal intensity. Implementing an optical cavity structure, the generation efficiency can be enhanced with keeping the high statistical accuracy.Comment: 9 pages, 3 figure

    Parametric resonance at the critical temperature in high energy heavy ion collisions

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    Parametric resonance in soft modes at the critical temperature (TcT_{c}) in high energy heavy ion collisions is studied in the case when the temperature (TT) of the system is almost constant for a long time. By deviding the fields into three parts, zero mode (condensate), soft modes and hard modes and assuming that the hard modes are in thermal equilibrium, we derive the equation of motion for soft modes at T=TcT=T_{c}. Enhanced modes are extracted by comparing with the Mathieu equation for the condensate oscillating along the sigma axis at T=TcT=T_{c}. It is found that the soft mode of π\pi fields at about 174 MeV is enhanced.Comment: 8 pages, 1 figure Some statements and equations are modified to clarif

    Topology Change of Coalescing Black Holes on Eguchi-Hanson Space

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    We construct multi-black hole solutions in the five-dimensional Einstein-Maxwell theory with a positive cosmological constant on the Eguchi-Hanson space, which is an asymptotically locally Euclidean space. The solutions describe the physical process such that two black holes with the topology of S^3 coalesce into a single black hole with the topology of the lens space L(2;1)=S^3/Z_2. We discuss how the area of the single black hole after the coalescence depends on the topology of the horizon.Comment: 10 pages, Some comments are added. to be published as a letter in Classical and Quantum Gravit

    D3/D7 holographic Gauge theory and Chemical potential

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    N=2 supersymmetric Yang-Mills theory with flavor hypermultiplets at finite temperature and in the dS4{}_4 are studied for finite quark number density (nbn_b) by a dual supergravity background with non-trivial dilaton and axion. The quarks and its number density nbn_b are introduced by embedding a probe D7 brane. We find a critical value of the chemical potential at the limit of nb=0n_b=0, and it coincides with the effective quark mass given in each theory for nb=0n_b=0. At this point, a transition of the D7 embedding configurations occurs between their two typical ones. The phase diagrams of this transition are shown in the plane of chemical potential versus temperature and cosmological constant for YM theory at finite temperature and in dS4{}_4 respectively. In this phase transition, the order parameter is considered as nbn_b. % and the critical value of the chemical potential This result seems to be reasonable since both theories are in the quark deconfinement phase.Comment: 17 pages, 8 figure

    Magnetic Ordering, Orbital Ordering and Resonant X-ray Scattering in Perovskite Titanates

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    The effective Hamiltonian for perovskite titanates is derived by taking into account the three-fold degeneracy of t2gt_{2g} orbitals and the strong electron-electron interactions. The magnetic and orbital ordered phases are studied in the mean-field approximation applied to the effective Hamiltonian. A large degeneracy of the orbital states in the ferromagnetic phase is found in contrast to the case of the doubly degenerate ege_g orbitals. Lifting of this orbital degeneracy due to lattice distortions and spin-orbit coupling is examined. A general form for the scattering cross section of the resonant x-ray scattering is derived and is applied to the recent experimental results in YTiO3_3. The spin wave dispersion relation in the orbital ordered YTiO3_3 is also studied.Comment: 10 pages, 6 figure

    Parametric amplification with a friction in heavy ion collisions

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    We study the effects of the expansion of the system and the friction on the parametric amplification of mesonic fields in high energy heavy ion collisions within the linear σ\sigma model . The equation of motion which is similar to Mathieu equation is derived to describe the time development of classical fields in the last stage of a heavy ion collision after the freezeout time. The enhanced mode is extracted analytically by comparison with Mathieu equation and the equation of motion is solved numerically to examine whether soft modes will be enhanced or not. It is found that the strong peak appears around 267 MeV in the pion transverse momentum distribution in cases with weak friction and high maximum temperature. This enhancement can be extracted by taking the ratio between different modes in the pion transverse momentum distribution.Comment: 10 pages, 9 figures LaTeX: appendix adde
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