The galactic millisecond pulsar population : implications for the Galactic Center Excess.

H. Ploeg
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Abstract

The Galactic Center Excess (GCE) is an extended gamma-ray source in the central region of the Galaxy found in Fermi Large Area Telescope data. In recent years it has become apparent that the GCE may not be spherically symmetric, but may be spatially correlated with the distribution of stellar mass in the Galactic bulge, potentially favoring an unresolved population of millisecond pulsars (MSPs) scenario. In this thesis, we perform detailed modelling of the Galactic MSP population. Including in our model the spin down between formation and observation, we find a model in which luminosity $L \propto E_{\rm cut}^{1.2 \pm 0.3} B^{0.1 \pm 0.4} \dot{E}^{0.5 \pm 0.1}$ provides the best fit to the data, where $E_{\rm cut}$ is spectral energy cutoff, $B$ is magnetic field strength, and $\dot{E}$ is the spin-down power. Due to differing star formation histories it is expected that the MSPs in the Galactic bulge are older and therefore dimmer than those in the Galactic disk. Our results demonstrate that we do not require that there is anything systematically different about the inner Galaxy MSPs to explain the GCE. In the "recycling" channel of MSP formation the neutron star forms from a core collapse supernovae that undergoes a random "kick" due to the asymmetry of the explosion. This would imply a smoothing out of the spatial distribution of the MSPs. We use N-body simulations to model how the MSP spatial distribution changes. We estimate the probability distribution of natal kick velocities using the resolved gamma-ray MSP proper motions, where MSPs have velocities relative to circular motion of 77 +/- 6 km/s, as determined as part of our Galactic MSP population model. We find that, due to the natal kicks, there is an approximately 10% increase in each of the bulge MSP spatial distribution dimensions and also the bulge MSP distribution becomes less boxy but is still far from being spherical.
银河系毫秒脉冲星群:对银河系中心过剩的暗示。
银河中心过剩(GCE)是在费米大面积望远镜的数据中发现的银河系中心区域的一个扩展的伽马射线源。近年来,很明显,GCE可能不是球对称的,但可能与银河系凸起的恒星质量分布在空间上相关,这可能有利于尚未解决的毫秒脉冲星(MSPs)种群的情况。在本文中,我们对银河系MSP种群进行了详细的建模。在我们的模型中,包括形成和观测之间的自旋下降,我们发现一个光度$L \propto E_{\rm cut}^{1.2 \pm 0.3} B^{0.1 \pm 0.4} \dot{E}^{0.5 \pm 0.1}$最适合数据的模型,其中$E_{\rm cut}$是光谱能量截止,$B$是磁场强度,$\dot{E}$是自旋下降功率。由于不同的恒星形成历史,预计银河系凸起中的msp比银河系盘中的msp更老,因此更暗。我们的结果表明,我们不需要银河系内部的msp有任何系统的不同来解释GCE。在MSP形成的“循环”通道中,中子星由核心坍缩超新星形成,由于爆炸的不对称性,该超新星经历了随机的“踢”。这将意味着对msp的空间分布进行平滑处理。我们使用n体模拟来模拟MSP空间分布的变化。我们利用伽玛射线MSP固有运动来估计出生踢速的概率分布,其中MSP相对于圆周运动的速度为77 +/- 6 km/s,这是我们银河系MSP人口模型的一部分。我们发现,由于出生时的踢腿,大约有10% increase in each of the bulge MSP spatial distribution dimensions and also the bulge MSP distribution becomes less boxy but is still far from being spherical.
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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