Deep view of Composite SNR CTA1 with LHAASO in $γ$-rays up to 300 TeV

LHAASO Collaboration
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Abstract

The ultra-high-energy (UHE) gamma-ray source 1LHAASO J0007+7303u is positionally associated with the composite SNR CTA1 that is located at high Galactic Latitude $b\approx 10.5^\circ$. This provides a rare opportunity to spatially resolve the component of the pulsar wind nebula (PWN) and supernova remnant (SNR) at UHE. This paper conducted a dedicated data analysis of 1LHAASO J0007+7303u using the data collected from December 2019 to July 2023. This source is well detected with significances of 21$\sigma$ and 17$\sigma$ at 8$-$100 TeV and $>$100 TeV, respectively. The corresponding extensions are determined to be 0.23$^{\circ}\pm$0.03$^{\circ}$ and 0.17$^{\circ}\pm$0.03$^{\circ}$. The emission is proposed to originate from the relativistic electrons and positrons accelerated within the PWN of PSR J0007+7303. The energy spectrum is well described by a power-law with an exponential cutoff function $dN/dE = (42.4\pm4.1)(\frac{E}{20\rm\ TeV})^{-2.31\pm0.11}\exp(-\frac{E}{110\pm25\rm\ TeV})$ $\rm\ TeV^{-1}\ cm^{-2}\ s^{-1}$in the energy range from 8 TeV to 300 TeV, implying a steady-state parent electron spectrum $dN_e/dE_e\propto (\frac{E_e}{100\rm\ TeV})^{-3.13\pm0.16}\exp[(\frac{-E_e}{373\pm70\rm\ TeV})^2]$ at energies above $\approx 50 \rm\ TeV$. The cutoff energy of the electron spectrum is roughly equal to the expected current maximum energy of particles accelerated at the PWN terminal shock. Combining the X-ray and gamma-ray emission, the current space-averaged magnetic field can be limited to $\approx 4.5\rm\ \mu G$. To satisfy the multi-wavelength spectrum and the $\gamma$-ray extensions, the transport of relativistic particles within the PWN is likely dominated by the advection process under the free-expansion phase assumption.
利用 LHAASO 在高达 300 TeV 的 $γ$ 射线中深入观测复合 SNR CTA1
超高能(UHE)伽马射线源1LHAASO J0007+7303u与位于银河系高纬度$b\approx 10.5^\circ$的复合SNR CTA1位置相关。这为空间解析UHE上的脉冲星风星云(PWN)和超新星(SNR)的成分提供了一个难得的机会。本文利用2019年12月至2023年7月收集的数据对1LHAASOJ0007+7303u进行了专门的数据分析。该源被很好地探测到,在8$-$100 TeV和$>$100 TeV的显著性分别为21$\sigma$和17$\sigma$。相应的扩展值分别为0.23$^{circ}/pm$0.03$^{circ}$和0.17$^{circ}/pm$0.03$^{circ}$。据推测,这些发射源于在PSRJ0007+7303的PWN内加速的相对论电子和正电子。能谱可以用一个幂律来描述,其指数截止函数为 $dN/dE = (42.4\pm4.1)(\frac{E}{20\rm\TeV})^{-2.31\pm0.11}\exp(-\frac{E}{110\pm25\rm\TeV})$ $\rm\TeV^{-1}\cm^{-2}s^{-1}$ in the energy range from 8 TeV to 300 TeV, implying a steady-stateparent electron spectrum $dN_e/dE_e\propto (\frac{E_e}{100\rm\TeV})^{-3.13pm0.16}exp[(\frac{E_e}{373\pm70\rm\TeV})^2]$ 在能量超过$\approx 50 \rm\TeV$ 时。电子能谱的截止能量大致等于目前在PWN末端冲击加速的粒子的预期最大能量。结合X射线和伽马射线发射,当前空间平均磁场可以限制在大约4.5\rm\mu G$。为了满足多波长频谱和伽马射线的扩展,在自由膨胀阶段假设下,相对论粒子在PWN内的传输可能是由对流过程主导的。
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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