PG 1553+113 is a blazar with the most significantly detected periodic pattern in its multiwavelength (MWL) emission, making it one of the most promising candidates for hosting a supermassive black hole binary. The presence of this periodic behavior in the X-ray band remains under debate, largely due to the lack of continuous monitoring. This has led to differing conclusions across previous studies. We examined whether the recently identified linear long-term trends in the γ-ray and optical bands also exist in the X-ray regime. We evaluated the ∼2.1-year period in the X-ray light curve of PG 1553+113 using two dedicated monitoring campaigns with Swift-XRT and UVOT, guided by predictions of future oscillation phases. We also examined whether the long-term trend is present in X-rays, the potential periodic behavior of the X-ray power-law photon index, and its potential correlation with the X-ray flux. We find tentative evidence for a correlation between the predicted high-emission states in the γ-ray band and those observed in the X-ray and UV bands. However, we do not find strong evidence of the same periodic pattern in the X-ray band. In addition, we find that the X-ray light curve is consistent with the presence of a long-term linear trend, in agreement with those previously reported in the γ-ray, optical, and radio bands. Overall, these results indicate that the X-ray emission likely shares the same long-term behavior observed in the γ-ray and optical bands. Nevertheless, the pronounced stochastic variability that characterizes the X-ray light curve limits our ability to draw firm conclusions regarding the presence of this periodic behavior.
Peñil et al. (Wed,) studied this question.