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Bibliographic Details
Main Author: The LHAASO Collaboration
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2601.11071
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Table of Contents:
  • Pulsar wind nebula DA~495 (G65.7+1.2) has been extensively observed from radio to TeV $γ$-ray bands. We present LHAASO observations of DA~495, revealing an energy-dependent morphology, where an extended source with $r_{39}=0.19^{\circ}\pm0.02^{\circ}$ is detected by WCDA (0.4-15~TeV), and a point-like source with a 95\% upper limit of $r_{39}=0.11^{\circ}$ is observed by KM2A ($>25~\mathrm{TeV}$). The spectrum of the source extends beyond 100~TeV with a break or cutoff at a few tens of TeV. Our X-ray data analysis, based on Chandra and XMM-Newton observations, shows that the X-ray emission of DA~495 extends well to $\sim 6^{\prime}$, significantly larger than the size previously reported. The broadband spectral energy distribution across radio, X-ray and TeV $γ$-ray bands is phenomenologically described by a one-zone leptonic model, yielding an average magnetic field of $\sim$ 5 $\mathrm{μG}$, while Fermi-LAT spectral analysis indicates a likely presence of a $γ$-ray pulsar within the system. A time-dependent model, in which particle transport is convection-dominated in the inner region (within $\sim100^{\prime\prime}$) and diffusion-dominated in the outer region, successfully reproduces the observed radial profiles of X-ray surface brightness and spectral index, and also accounts for the TeV $γ$-ray emission detected by LHAASO, suggesting that DA~495 represents an evolved PWN with ongoing particle escape that gives rise to a TeV halo component -- that is, a PWN+halo system.