Abstract:
The bright blazar OJ 287 routinely parades high brightness bremsstrahlung flares, which are explained as being a result of a
secondary supermassive black hole (SMBH) impacting the accretion disc of a more massive primary SMBH in a binary system.
The accretion disc is not rigid but rather bends in a calculable way due to the tidal influence of the secondary. Next, we refer to
this phenomenon as a variable disc level. We begin by showing that these flares occur at times predicted by a simple analytical
formula, based on general relativity inspired modified Kepler equation, which explainsimpact flaressince 1888. The 2022 impact
flare, namely flare number 26, is rather peculiar as it breaks the typical pattern of two impact flares per 12-yr cycle. This is the
third bremsstrahlung flare of the current cycle that follows the already observed 2015 and 2019 impact flaresfrom OJ 287. It turns
out that the arrival epoch of flare number 26 is sensitive to the level of primary SMBH’s accretion disc relative to its mean level
in our model. We incorporate these tidally induced changes in the level of the accretion disc to infer that the thermal flare should
have occurred during 2022 July–August, when it was not possible to observe it from the Earth. Thereafter, we explore possible
observational evidence for certain pre-flare activity by employing spectral and polarimetric data from our campaigns in 2004/05
and 2021/22. We point out theoretical and observational implications of two observed mini-flares during 2022 January–February.
