40,283 research outputs found

    Momentum distribution and correlation of two-nucleon relative motion in 6^6He and 6^6Li

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    The momentum distribution of relative motion between two nucleons gives information on the correlation in nuclei. The momentum distribution is calculated for both 6^{6}He and 6^6Li which are described in a three-body model of α\alpha+NN+NN. The ground state solution for the three-body Hamiltonian is obtained accurately using correlated basis functions. The momentum distribution depends on the potential model for the NN-NN interaction. With use of a realistic potential, the 6^6He momentum distribution exhibits a dip around 2 fm1^{-1} characteristic of SS-wave motion. In contrast to this, the 6^6Li momentum distribution is very similar to that of the deuteron; no dip appears because it is filled with the DD-wave component arising from the tensor force.Comment: 14 pages, 9 figure

    Correlated-Gaussian approach to linear-chain states -Case of four α\alpha-particles-

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    We show that correlated Gaussians with good angular momentum and parity provide flexible basis functions for specific elongated shape. As its application we study linear-chain states of four-alpha particles in variation-after-projection calculations in which all the matrix elements are evaluated analytically. We find possible chain states for J=0+J=0^+, 2+2^+, 4+4^+ and perhaps 6+6^+ with the bandhead energy being about 33 MeV from the ground state of 16^{16}O. No chain states with J8J\geq 8 are found. The nature of the rotational sequence of the chain states is clarified in contrast to a rigid-body rotation. The quadrupole deformation parameters estimated from the chain states increase from 0.59 to 1.07 for 2+2^+ to 6+6^+. This work suggests undeveloped fields for the correlated Gaussians beyond those problems which have hitherto been solved successfully.Comment: 13 pages, 6 figures, accepted for publication in Phys. Rev.

    Conjoint Analysis for the Demand of Health Care Related to Common Cold.

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    This article examines by means of Conjoint Analysis (Ca) the health care choice in Japanese people suffering from the common cold. CA is a stated preference technique that uses a survey and involves the hypothetical scenarios.HEALTH ; DEMAND

    Approach Toward a Unified Health Insurance System: What Can Japan Learn from the Korean Experience.

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    We discuss that Japan should make a comprehensive reform of the existing institutions of health insurance in view of the apparent structural problems centering on the financial instability of health care finance, and discrepancies in premiums and benefits among the insured.HEALTH ; JAPAN ; KOREA

    Electric dipole response of 6^6He: Halo-neutron and core excitations

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    Electric dipole (E1E1) response of 6^{6}He is studied with a fully microscopic six-body calculation. The wave functions for the ground and excited states are expressed as a superposition of explicitly correlated Gaussians (CG). Final state interactions of three-body decay channels are explicitly taken into account. The ground state properties and the low-energy E1E1 strength are obtained consistently with observations. Two main peaks as well as several small peaks are found in the E1E1 strength function. The peak at the high-energy region indicates a typical macroscopic picture of the giant dipole resonance, the out-of-phase proton-neutron motion. The transition densities of the lower-lying peaks exhibit in-phase proton-neutron motion in the internal region, out-of-phase motion near the surface region, and spatially extended neutron oscillation, indicating a soft-dipole mode (SDM) and its vibrationally excited mode.Comment: 12 pages, 12 figures, to appear in Phys. Rev.

    Green's function method for strength function in three-body continuum

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    Practical methods to compute dipole strengths for a three-body system by using a discretized continuum are analyzed. New techniques involving Green's function are developed, either by correcting the tail of the approximate wave function in a direct calculation of the strength function or by using a solution of a driven Schroedinger equation in a summed expression of the strength. They are compared with the complex scaling method and the Lorentz integral transform, also making use of a discretized continuum. Numerical tests are performed with a hyperscalar three-body potential in the hyperspherical-harmonics formalism. They show that the Lorentz integral transform method is less practical than the other methods because of a difficult inverse transform. These other methods provide in general comparable accuracies.Comment: 22 pages, 8 figures, to appear in Progress of Theoretical Physic

    Probing neutron-skin thickness with total reaction cross sections

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    We analyze total reaction cross sections, σR\sigma_R, for exploring their sensitivity to the neutron-skin thickness of nuclei. We cover 91 nuclei of O, Ne, Mg, Si, S, Ca, and Ni isotopes. The cross sections are calculated in the Glauber theory using the density distributions obtained with the Skyrme-Hartree-Fock method in 3-dimensional coordinate space. Defining a reaction radius, aR=σR/πa_R=\sqrt{\sigma_R/\pi}, to characterize the nuclear size and target (proton or 12^{12}C) dependence, we find an empirical formula for expressing aRa_R with the point matter radius and the skin thickness, and assess two practical ways of determining the skin thickness from proton-nucleus σR\sigma_R values measured at different energies or from σR\sigma_R values measured for different targets.Comment: 6 pages, 5 figures, to appear in Phys. Rev.
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