Cuoco Alessandro, Krämer Michael, Korsmeier Michael
Institute for Theoretical Particle Physics and Cosmology, RWTH Aachen University, 52056 Aachen, Germany.
Phys Rev Lett. 2017 May 12;118(19):191102. doi: 10.1103/PhysRevLett.118.191102. Epub 2017 May 9.
We evaluate dark matter (DM) limits from cosmic-ray antiproton observations using the recent precise AMS-02 measurements. We properly take into account cosmic-ray propagation uncertainties, fitting DM and propagation parameters at the same time and marginalizing over the latter. We find a significant indication of a DM signal for DM masses near 80 GeV, with a hadronic annihilation cross section close to the thermal value, ⟨σv⟩≈3×10^{-26} cm^{3} s^{-1}. Intriguingly, this signal is compatible with the DM interpretation of the Galactic center gamma-ray excess. Confirmation of the signal will require a more accurate study of the systematic uncertainties, i.e., the antiproton production cross section, and the modeling of the effect of solar modulation. Interpreting the AMS-02 data in terms of upper limits on hadronic DM annihilation, we obtain strong constraints excluding a thermal annihilation cross section for DM masses below about 50 GeV and in the range between approximately 150 and 500 GeV, even for conservative propagation scenarios. Except for the range around ∼80 GeV, our limits are a factor of ∼4 stronger than the limits from gamma-ray observations of dwarf galaxies.
我们利用近期精确的阿尔法磁谱仪(AMS - 02)测量结果,评估宇宙射线反质子观测给出的暗物质(DM)限制。我们恰当地考虑了宇宙射线传播的不确定性,同时拟合暗物质和传播参数,并对后者进行边缘化处理。我们发现,对于质量接近80 GeV的暗物质,有显著迹象表明存在暗物质信号,其强子湮灭截面接近热值,即⟨σv⟩≈3×10⁻²⁶ cm³ s⁻¹。有趣的是,这个信号与银河系中心伽马射线过量的暗物质解释相符。要确认该信号,需要更精确地研究系统不确定性,即反质子产生截面,以及太阳调制效应的建模。从强子暗物质湮灭上限的角度解释AMS - 02数据,我们得到了强有力的限制,即使在保守的传播情景下,也排除了质量低于约50 GeV以及在约150至500 GeV范围内暗物质的热湮灭截面。除了约80 GeV附近的范围,我们的限制比矮星系伽马射线观测给出的限制强约4倍。
