3,772 research outputs found

    Reductions of integrable equations on A.III-type symmetric spaces

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    We study a class of integrable non-linear differential equations related to the A.III-type symmetric spaces. These spaces are realized as factor groups of the form SU(N)/S(U(N-k) x U(k)). We use the Cartan involution corresponding to this symmetric space as an element of the reduction group and restrict generic Lax operators to this symmetric space. The symmetries of the Lax operator are inherited by the fundamental analytic solutions and give a characterization of the corresponding Riemann-Hilbert data.Comment: 14 pages, 1 figure, LaTeX iopart styl

    Asymptotic behavior of photoionization cross section in a central field

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    We demonstrate that the high energy nonrelativistic asymptotic for the photoionization cross section in a central field V(r)V(r) can be expressed in terms of the asymptotic of the Fourier transform V(p)V(p) of the field. We show that the cross sections drop in the same way for the fields with the Coulomb short distance behavior. The character of the cross sections energy behavior is related to the analytical properties of the function V(r)V(r). The cross sections exhibit power drop for the potentials which have singularities an the real axis. They suffer the exponential drop if V(r)V(r) has singularities in the complex plane.Comment: 11 page

    Asymptotic behavior of photoionization cross section in a central field. Ionization of the pp states

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    We continue our studies of the high energy nonrelativistic asymptotics for the photoionization cross section of the systems bound by a central field V(r)V(r). We consider the bound states with the orbital momentum =1\ell=1. We show, that as well as for the ss states the asymptotics can be obtained without solving of the wave equations for the bound and outgoing electrons. The asymptotics of the cross sections is expressed in terms of the asymptotics of the Fourier transform V(p)V(p) of the field and its derivative V(p)V'(p) by employing the Lippmann--Schwinger equation. The shape of the energy dependence of the cross sections is determined by the analytical properties of the potential V(r)V(r). The cross sections exhibit power drop with the increase of the photon energy for the potentials V(r)V(r) which have singularities on the real axis. They experience exponential drop if V(r)V(r) has poles in the complex plane. We trace the energy dependence of the ratios of the photoionization cross sections for ss and pp electrons from the states with the same principle quantum number. We apply the results to the physics of fullerenes.Comment: 14 page

    Photoionization of helium-like ions in asymptotic nonrelativistic region

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    The cross section for single K-shell ionization by a high-energy photon is evaluated in the next-to-leading order of the nonrelativistic perturbation theory with respect to the electron-electron interaction. The screening corrections are of particular importance for light helium-like ions. Even in the case of neutral He atom, our analytical predictions turn out to be in good agreement with the numerical calculations performed with the use of the sophisticated wave functions. The universal high-energy behavior is studied for the ratio of double-to-single photoionization cross sections. We also discuss the fast convergence of the perturbation theory over the reversed nuclear charge number 1/Z.Comment: 12 pages, 1 figure. to be published in Physics Letters

    Perturbative Symmetry Approach

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    Perturbative Symmetry Approach is formulated in symbolic representation. Easily verifiable integrability conditions of a given equation are constructed in the frame of the approach. Generalisation for the case of non-local and non-evolution equations is disscused. Application of the theory to the Benjamin-Ono and Camassa-Holm type equations is considered.Comment: 16 page

    About universal scalings in double K-shell photoionization

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    We discuss the problem of the universal scalings in the double ionization of atomic K-shell electrons caused by absorption of a single photon. In particular, we envisage the following questions: Under which conditions and up to which accuracy the universal scalings are realized? Does it make sense to talk about different physical mechanisms in the double-ionization process? Finally, we present also the theoretical analysis of recent experimental measurements performed on neutral atoms. As a testing ground, QED perturbation theory is employed.Comment: 5 pages, 4 figure

    X-Ray Fluorescence Determination of Trace Gold in an Ion-Exchange Resin

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    The use of portable X ray optics with a secondary radiator in the determination of trace gold in an ion exchange resin within the mass fraction range of 1–50 ppm is described. It is shown that the secondary radiator design with primary radiation filtering allows one to determine trace gold in an ion exchange resin when the mass fraction of gold is lower than 1 ppm

    High-energy two-electron capture with emission of a single photon

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    We investigate the two-electron capture with emission of a single photon to the ground state in the Coulomb field of a heavy nucleus in its collision with a light atom. Describing electron-electron interactions in the bound state perturbatively, we obtained an analytical formula for the high-energy limit of the cross section. In combination with previous results obtained in the same approach we calculated the cross section in a broad interval of energies of the collision. We show that the amplitude of the process at high energy depends on the behavior of the bound state wave function near the triple coalescence point. We analyze the properties of the approximate wave functions which are necessary for the description of the high-energy limit

    Microwave-induced magnetotransport phenomena in two-dimensional electron systems: Importance of electrodynamic effects

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    We discuss possible origins of recently discovered microwave induced photoresistance oscillations in very-high-electron-mobility two-dimensional electron systems. We show that electrodynamic effects -- the radiative decay, plasma oscillations, and retardation effects, -- are important under the experimental conditions, and that their inclusion in the theory is essential for understanding the discussed and related microwave induced magnetotransport phenomena.Comment: 5 pages, including 2 figures and 1 tabl
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