108,020 research outputs found

    Chandra detection of diffuse hot gas in and around the M31 bulge

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    We report the detection of diffuse hot gas in M31, using archival Chandra observations which allow us to map out a 30' by 30' field (covering a galactocentric radius up to 4.5 kpc) and to detect sources in the galaxy down to a 0.5-8 keV luminosity limit of ~10^35 ergs/s. We estimate the remaining stellar contribution from fainter X-ray sources (primarily cataclysmic variables and coronally active binaries), assuming that they spatially follow the stellar distribution. Indeed, the near-IR K-band light of the galaxy closely traces the 2-8 keV unresolved X-rays, indicating a collective stellar X-ray emissivity consistent with those determined for the Galactic ridge and M32, whereas the amount of the 0.5-2 keV unresolved emission is significantly greater than the expected stellar contribution, especially within a galactocentric radius of ~2 kpc. Morphologically, this soft X-ray excess appears substantially rounder than the bulge as seen in K-band and is elongated approximately along the minor-axis at large radii. The excess thus most likely represents the emission of diffuse hot gas in and around the galactic bulge. Furthermore, the near side of the M31 disk casts an apparent shadow against the soft X-ray excess, indicating that the hot gas extends to at least 2.5 kpc from the galactic plane. We briefly discuss the implications of these results on the energy balance in the M31 bulge and on understanding the large-scale soft X-ray enhancement observed toward the inner region of our own Galaxy.Comment: 10 pages, 2 figures, accepted by ApJ

    The role of qqˉq\bar q components in the N(1440) resonance

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    The role of 5-quark components in the pion and electromagnetic decays and transition form factors of the N(1440) is explored. The qqqqqˉqqqq\bar q components, where the 4-quark subsystem has the flavor-spin symmetries [4]FS[22]F[22]S[4]_{FS}[22]_F[22]_S and [4]FS[31]F[31]S[4]_{FS}[31]_F[31]_S, which are expected to have the lowest energy of all qqqqqˉqqqq\bar q configurations, are considered in detail with a nonrelativistic quark model. The matrix elements between the 5-quark components of the N(1440) and the nucleon, qqqqqˉ→qqqqqˉqqqq\bar q\to qqqq\bar q, play a minor role in these decays, while the transition matrix elements qqqqqˉ→qqqqqqq\bar q\to qqq and qqq→qqqqqˉqqq\to qqqq\bar q that involve quark antiquark annihilation are very significant. Both for the electromagnetic and strong decay the change from the valence quark model value is dominated by the confinement triggered qqˉq\bar q annihilation transitions. In the case of pion decay the calculated decay width is enhanced substantially both by the direct qqˉ→πq\bar q \to \pi and also by the confinement triggered qqˉ→πq\bar q\to \pi transitions. Agreement with the empirical value for the pion decay width may be reached with a ∼\sim 30% qqqqqˉqqqq\bar q component in the N(1440).Comment: 23 pages revte

    Five-quark components in Δ(1232)→Nπ\Delta(1232)\to N\pi decay

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    Five-quark qqqqqˉqqqq\bar q components in the Δ(1232)\Delta(1232) are shown to contribute significantly to Δ(1232)→Nπ\Delta(1232)\to N\pi decay through quark-antiquark annihilation transitions. These involve the overlap between the qqqqqq and qqqqqˉqqqq\bar q components and may be triggered by the confining interaction between the quarks. With a ∼\sim 10% admixture of five-quark components in the Δ(1232)\Delta(1232) the decay width can be larger by factors 2 - 3 over that calculated in the quark model with 3 valence quarks, depending on the details of the confining interaction. The effect of transitions between the qqqqqˉqqqq\bar q components themselves on the calculated decay width is however small. The large contribution of the quark-antiquark annihilation transitions thus may compensate the underprediction of the width of the Δ(1232)\Delta(1232) by the valence quark model, once the Δ(1232)\Delta(1232) contains qqqqqˉqqqq\bar q components with ∼\sim 10% probability.Comment: accepted versio

    Sea-quark effects in the pion charge form factor

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    It is shown that the data on the pion charge form factor admit the possibility for a substantial sea-quark components in the pion wave function. If the charge form factor is calculated with instant form kinematics in a constituent quark model that is extended to include explicit (qqˉ)2(q\bar q)^2 components in the pion wave function, that component will give the dominant contribution to the calculated π+\pi^+ charge form factor at large values of momentum transfer. The present experimental values Q2Q^2 can be described well with (qqˉ)2(q\bar q)^2 component admixtures of up to 50%. The sensitivity of the calculated π+\pi^+ charge form factor to whether one of the quarks or one of the antiquarks is taken to be in the P-state is small.Comment: 14 page
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