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Abstract

In this paper, we derive a rotating Sen black hole (BH) solution from the nonrotating limit static metric of the Sen BH using the Newman-Janis algorithm (NJA) and investigate the thin accretion disk and shadow of the rotating Sen BH. The characteristics of the rotating Sen BH, including its horizon and ergosurface, are analyzed. The results of our analysis indicate that an increase in the effective charge $q_{m}$ leads to corresponding increases in the energy flux, radiation temperature, and spectral luminosity. It is observed that the BH shadow size decreases with an increase in the parameter $q_{m}$. Furthermore, by comparing the theoretically predicted shadow diameters with observational data from M87$^{*}$ and Sgr A$^{*}$, we constrain the viable range of model parameters. The BH inclination angles are set to $17^{\circ}$, $50^{\circ}$ and $90^{\circ}$ for the analysis. Our results indicate that, within the constrained parameter space consistent with both M87$^{*}$ and Sgr A$^{*}$, the shared parameter bounds derived from the rotating Sen BH are given by $0.133158M<q_{m}<0.215561M$.