134,722 research outputs found

    The optical/UV excess of isolated neutron stars in the RCS model

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    The X-ray dim isolated neutron stars (XDINSs) are peculiar pulsar-like objects, characterized by their very well Planck-like spectrum. In studying their spectral energy distributions, the optical/UV excess is a long standing problem. Recently, Kaplan et al. (2011) have measured the optical/UV excess for all seven sources, which is understandable in the resonant cyclotron scattering (RCS) model previously addressed. The RCS model calculations show that the RCS process can account for the observed optical/UV excess for most sources . The flat spectrum of RX J2143.0+0654 may due to contribution from bremsstrahlung emission of the electron system in addition to the RCS process.Comment: 6 pages, 2 figures, 1 table, accepted for publication in Research in Astronomy and Astrophysic

    AXPs and SGRs in the outer gap model: confronting Fermi observations

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    Anomalous X-ray pulsars (AXPs) and soft gamma-ray repeaters (SGRs) are magnetar candidates, i.e., neutron stars powered by strong magnetic field. If they are indeed magnetars, they will emit high-energy gamma-rays which are detectable by Fermi-LAT according to the outer gap model. However, no significant detection is reported in recent Fermi-LAT observations of all known AXPs and SGRs. Considering the discrepancy between theory and observations, we calculate the theoretical spectra for all AXPs and SGRs with sufficient observational parameters. Our results show that most AXPs and SGRs are high-energy gamma-ray emitters if they are really magnetars. The four AXPs 1E 1547.0-5408, XTE J1810-197, 1E 1048.1-5937, and 4U 0142+61 should have been detected by Fermi-LAT. Then there is conflict between out gap model in the case of magnetars and Fermi observations. Possible explanations in the magnetar model are discussed. On the other hand, if AXPs and SGRs are fallback disk systems, i.e., accretion-powered for the persistent emissions, most of them are not high-energy gamma-ray emitters. Future deep Fermi-LAT observations of AXPs and SGRs will help us make clear whether they are magnetars or fallback disk systems.Comment: 15 pages, 3 figures, 1 table, accepted for publication in The Astrophysical Journa

    Collective flow of open and hidden charm in Au+Au collisions at s\sqrt{s} = 200 GeV

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    We study the collective flow of open charm mesons and charmonia in Au+Au collisions at s\sqrt{s} = 200 GeV within the hadron-string-dynamics (HSD) transport approach. The detailed studies show that the coupling of D,DˉD,\bar{D} mesons to the light hadrons leads to comparable directed and elliptic flow as for the light mesons. This also holds approximately for J/ΨJ/\Psi mesons since more than 50% of the final charmonia for central and mid-central collisions stem from D+DˉD+\bar{D} induced reactions in the transport calculations. The transverse momentum spectra of D,DˉD,\bar{D} mesons and J/ΨJ/\Psi's are only very moderately changed by the (pre-)hadronic interactions in HSD which can be traced back to the collective flow generated by elastic interactions with the light hadrons.Comment: 9 pages, 8 figures, Phys. Rev. C, in pres

    Understanding the different rotational behaviors of 252^{252}No and 254^{254}No

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    Total Routhian surface calculations have been performed to investigate rapidly rotating transfermium nuclei, the heaviest nuclei accessible by detailed spectroscopy experiments. The observed fast alignment in 252^{252}No and slow alignment in 254^{254}No are well reproduced by the calculations incorporating high-order deformations. The different rotational behaviors of 252^{252}No and 254^{254}No can be understood for the first time in terms of β6\beta_6 deformation that decreases the energies of the νj15/2\nu j_{15/2} intruder orbitals below the N=152 gap. Our investigations reveal the importance of high-order deformation in describing not only the multi-quasiparticle states but also the rotational spectra, both providing probes of the single-particle structure concerning the expected doubly-magic superheavy nuclei.Comment: 5 pages, 4 figures, the version accepted for publication in Phys. Rev.

    Reconstruction of 5D5D Cosmological Models From Equation of State of Dark Energy

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    We consider a class of five-dimensional cosmological solutions which contains two arbitrary function μ(t)\mu(t) and ν(t)\nu(t). We found that the arbitrary function μ(t)\mu(t) contained in the solutions can be rewritten in terms of the redshift zz as a new arbitrary function f(z)f(z). We further showed that this new arbitrary function f(z)f(z) could be solved out for four known parameterized equations of state of dark energy. Then the 5D5D models can be reconstructed and the evolution of the density and deceleration parameters of the universe can be determined.Comment: 10 pages, 4 eps figures, ws-ijmpd.cls styl

    Entanglement and spin squeezing properties for three bosons in two modes

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    We discuss the canonical form for a pure state of three identical bosons in two modes, and classify its entanglement correlation into two types, the analogous GHZ and the W types as well known in a system of three distinguishable qubits. We have performed a detailed study of two important entanglement measures for such a system, the concurrence C\mathcal{C} and the triple entanglement measure Ď„\tau. We have also calculated explicitly the spin squeezing parameter Îľ\xi and the result shows that the W state is the most ``anti-squeezing'' state, for which the spin squeezing parameter cannot be regarded as an entanglement measure.Comment: 7 pages, 6 figures; corrected figure sequence. Thanks to Dr. Han P
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