Study of Ultra-High-Energy Gamma-Ray Source 1LHAASO J0056+6346u and Its Possible Origins

Abstract

We report a dedicated study of the newly discovered extended UHE γ-ray source 1LHAASO J0056+6346u. Analyzing 979 days of LHAASO-WCDA data and 1389 days of LHAASO-KM2A data, we observed a significant excess of γ-ray events with both WCDA and KM2A. Assuming a point power-law source with a fixed spectral index, the significance maps reveal excesses of 12.65\,σ, 22.18\,σ, and 10.24\,σ in the energy ranges of 1--25 TeV, 25--100 TeV, and > 100 TeV, respectively. We use a 3D likelihood algorithm to derive the morphological and spectral parameters, and the source is detected with significances of 12.65\,σ by WCDA and 25.27\,σ by KM2A. The best-fit positions derived from WCDA and KM2A data are (R.A. = 13.960.09, Decl. = 63.920.05) and (R.A. = 14.000.05, Decl. = 63.790.02), respectively. The angular size (r39) of 1LHAASO J0056+6346u is 0.340.04 at 1--25 TeV and 0.240.02 at > 25 TeV. The differential flux of this UHE γ-ray source can be described by an exponential cutoff power-law function: (2.670.25) × 10-15 (E/20\,TeV)-1.970.10 e-E/(55.17.2)\,TeV \,TeV-1\,cm-2\,s-1. To explore potential sources of γ-ray emission, we investigated the gas distribution around 1LHAASO J0056+6346u. 1LHAASO J0056+6346u is likely to be a TeV PWN powered by an unknown pulsar, which would naturally explain both its spatial and spectral properties. Another explanation is that this UHE γ-ray source might be associated with gas content illuminated by a nearby CR accelerator, possibly the SNR candidate G124.0+1.4.

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