9,107 research outputs found
Millisecond pulsar interpretation of the Galactic center gamma-ray excess
It was found in the Fermi-LAT data that there is an extended -ray
excess in the Galactic center region. The proposed sources to be responsible
for the excess include the dark matter annihilation or an astrophysical
alternative from a population of millisecond pulsars (MSPs). Whether or not the
MSP scenario can explain the data self-consistently has very important
implications for the detection of particle dark matter, which is however,
subject to debate in the literature. In this work we study the MSP scenario in
detail, based on the detected properties of the MSPs by Fermi-LAT. We build a
model of the Milky Way MSPs which can reproduce the -ray properties of
the Fermi-LAT MSPs, and derive the intrinsic luminosity function of the MSPs.
The model is then applied to a bulge population of MSPs. We find that the
extended -ray excess can be well explained by the bulge MSPs without
violating the detectable flux distribution of MSPs by Fermi-LAT. The spatial
distribution of the bulge MSPs as implied by the distribution of low mass X-ray
binaries follows a profile, which is also consistent with the
-ray excess data. We conclude that the MSP model can explain the
Galactic center -ray excess self-consistently, satisfying all the
current observational constraints.Comment: 20 pages, 8 figures and 1 table; match the published version of
Journal of High Energy Astrophysics (JHEAp
Testing RIAF model for Sgr A* using the size measurements
Recent radio observations by the VLBA at 7 and 3.5 mm produced the
high-resolution images of the compact radio source located at the center of our
Galaxy--Sgr A*, and detected its wavelength-dependent intrinsic sizes at the
two wavelengths. This provides us with a good chance of testing
previously-proposed theoretical models for Sgr A*. In this {\em Letter}, we
calculate the size based on the radiatively inefficient accretion flow (RIAF)
model proposed by Yuan, Quataert & Narayan (2003). We find that the predicted
sizes after taking into account the scattering of the interstellar electrons
are consistent with the observations. We further predict an image of Sgr A* at
1.3 mm which can be tested by future observations.Comment: 10 pages, 1 figure; accepted by ApJ
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