Epsilon Canis Majoris: The Brightest EUV Source with Surprisingly Low Interstellar Absorption

The B2 star $\epsilon$ CMa, at parallax distance $d = 124\pm2$~pc, dominates the H I photoionization of the local interstellar cloud (LIC). At its closer parallax distance compared to previous estimates, $\epsilon$ CMa has a 0.9 mag fainter absolute magnitude $M_V =-3.97\pm0.04$. We combine measurements of distance with the integrated flux $f = (41.5\pm3.3) \times 10^{-6}~{\rm erg~cm}^{-2}~{\rm s}^{-1}$ and angular diameter $\theta_d = 0.80\pm0.05$~mas to produce a consistent set of stellar parameters: radius $R = 10.7\pm0.7~R_{\odot}$, mass $M = 13.1\pm2.3~M_{\odot}$, gravity $\log g = 3.50\pm0.05$, effective temperature $T_{\rm eff} \approx 21,000$~K, and luminosity $L \approx 20,000~L_{\odot}$. These parameters place Epsilon CMa outside the $\beta$ Cephei instability strip, consistent with its observed lack of pulsations. The observed EUV spectrum yields a hydrogen photoionization rate $\Gamma_{\rm HI} \approx 10^{-15}$ s$^{-1}$ (at Earth). The total flux decrement factor at the Lyman limit ($\Delta_{\rm LL} = 5000\pm500$) is a combination of attenuation in the stellar atmosphere ($\Delta_{\rm star} = 110\pm10$) and interstellar medium ($\Delta_{\rm ISM} = 45\pm5$) with optical depth $\tau_{\rm LL} = 3.8\pm0.1$. After correcting for interstellar HI column density $N_{\rm HI} = (6\pm1)\times10^{17}~{\rm cm}^{-2}$, we find a stellar LyC photon flux $\Phi_{\rm LyC} \approx 3000~{\rm cm}^{-2}~{\rm s}^{-1}$ and ionizing luminosity $Q_{\rm LyC} = 10^{45.7\pm0.3}$ photons s$^{-1}$. The photoionization rate $\Gamma_{\rm H} \approx$ (1-2)$\times 10^{-14}~{\rm s}^{-1}$ at the cloud surface produces an ionization fraction (30-40\%) for total hydrogen density $n_{\rm H} = 0.2$ cm$^{-3}$. With its $27.3\pm0.4$ km/s heliocentric radial velocity and small proper motion, $\epsilon$ CMa passed within $9.3\pm0.5$ pc of the Sun 4.4 Myr ago, with a 180 times higher photoionization rate.