AGILE Observations of the Gravitational Wave Source GW170104

The LIGO/Virgo Collaboration (LVC) detected on January 4th, 2017 a significant gravitational wave (GW) event (now named GW170104). We report in this Letter the main results obtained from the analysis of hard X-ray and gamma-ray data of the AGILE mission that repeatedly observed the GW170104 localization region (LR). At the LVC detection time $T_0$ AGILE observed about 36% of the LR. The gamma-ray imaging detector did not reveal any significant emission in the energy range 50 MeV - 30 GeV. Furthermore, no significant gamma-ray transients were detected in the LR that was repeatedly exposed over timescales of minutes, hours and days. We also searched for transient emission using data near $T_0$ of the omni-directional detector MCAL operating in the energy band 0.4--100 MeV. A refined analysis of MCAL data shows the existence of a weak event (that we call "E2") with a signal-to-noise ratio of $4.4,sigma$ lasting about 32 ms and occurring $0.46,pm,0.05 ,rm s$ before $T_0$. A study of the MCAL background and of the false-alarm rate of E2 leads to determining a post-trial significance of $3.4,sigma$ for a temporal coincidence with GW170104. We note that E2 has characteristics similar to those detected from the weak precursor of the short GRB 090510. The candidate event E2 is worth of consideration for simultaneous detection by other satellites. If associated with GW170104, it shows emission in the MeV band of a short burst preceding the final coalescence by 0.46 sec and involving $sim 10^{-7}$ of the total rest mass energy of the system.