Utilizing cosmic-ray positron and electron observations to probe the averaged properties of Milky Way pulsars

I. Cholis, Iason Krommydas
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引用次数: 10

Abstract

Pulsars have long been studied in the electromagnetic spectrum. Their environments are rich in high-energy cosmic-ray electrons and positrons likely enriching the interstellar medium with such particles. In this work we use recent cosmic-ray observations from the AMS-02, CALET and DAMPE collaborations to study the averaged properties of the local Milky Way pulsar population. We perform simulations of the local Milky Way pulsar population, for interstellar medium assumptions in agreement with a range of cosmic-ray nuclei measurements. Each such simulation contains $\sim 10^{4}$ pulsars of unique age, location, initial spin-down power and cosmic-ray electron/positron spectra. We produce more than $7\times 10^{3}$ such Milky Way pulsar simulations. We account for and study i) the pulsars' birth rates and the stochastic nature of their birth, ii) their initial spin-down power distribution, iii) their time evolution in terms of their braking index and characteristic spin-down timescale, iv) the fraction of spin-down power going to cosmic-ray electrons and positrons and v) their propagation through the interstellar medium and the Heliosphere. We find that pulsars of ages $\sim 10^{5}-10^{7}$ yr, have a braking index that on average has to be 3 or larger. Given that electromagnetic spectrum observations of young pulsars find braking indices lower than 3, our work provides strong hints that pulsars' braking index increases on average as they age, allowing them to retain some of their rotational energy. Moreover, we find that pulsars have relatively uniform properties as sources of cosmic-ray electrons and positrons in terms of the spectra they produce and likely release O($10\%$) of their rotational energy to cosmic-rays in the ISM. Finally, we find at $\simeq$12 GeV positrons a spectral feature that suggests a new subpopulation of positron sources contributing at these energies.
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利用宇宙射线正电子和电子观测探测银河系脉冲星的平均性质
脉冲星在电磁波谱上的研究由来已久。它们的环境富含高能宇宙射线电子和正电子,可能使星际介质中充满了这样的粒子。在这项工作中,我们使用AMS-02, CALET和DAMPE合作项目最近的宇宙射线观测数据来研究银河系本地脉冲星种群的平均特性。我们执行模拟本地银河系脉冲星人口,星际介质的假设与一系列宇宙射线核测量一致。每个这样的模拟都包含$\sim 10^{4}$脉冲星,它们具有独特的年龄、位置、初始自旋下降功率和宇宙射线电子/正电子谱。我们制作了更多$7\times 10^{3}$这样的银河系脉冲星模拟。我们考虑和研究i)脉冲星的出生率和它们出生的随机性,ii)它们的初始自旋下降功率分布,iii)它们的制动指数和特征自旋下降时间尺度的时间演变,iv)宇宙射线电子和正电子的自旋下降功率的比例,v)它们通过星际介质和日球层的传播。我们发现年龄为$\sim 10^{5}-10^{7}$ year的脉冲星,其制动指数平均必须大于等于3。鉴于对年轻脉冲星的电磁波谱观测发现制动指数低于3,我们的工作提供了强有力的暗示,即脉冲星的制动指数随着年龄的增长而平均增加,从而使它们保留了一些旋转能量。此外,我们发现脉冲星作为宇宙射线电子和正电子的来源,在它们产生的光谱方面具有相对均匀的特性,并且可能在ISM中释放O($10\%$)的旋转能量给宇宙射线。最后,我们在$\simeq$ 12 GeV正电子中发现了一个光谱特征,表明在这些能量中有一个新的正电子源亚群。
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Utilizing cosmic-ray positron and electron observations to probe the averaged properties of Milky Way pulsars EuCAPT White Paper: Opportunities and Challenges for Theoretical Astroparticle Physics in the Next Decade The galactic millisecond pulsar population : implications for the Galactic Center Excess. Spectral-temporal features of repeating ( one-off ) FRBs and Axion Star. AstroSat/UVIT observations of IC 4329A: constraining the accretion disc inner radius
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