Investigating the existence of gravitomagnetic monopole in M87*

Abstract

We examine the possibility for the existence of gravitomagnetic monopole (n*) in M87* by using the results obtained from its first Event Horizon Telescope image. By numerically deducing the shadow sizes in Kerr-Taub-NUT (KTN) spacetime, we show that the shadow size increases with increasing |n*| for a fixed Kerr parameter |a*| in case of the KTN black hole, whereas for a KTN naked singularity it increases with increasing n* for a fixed a* > 0 if n* > - 17 . In general, the asymmetry of shadow shape increases if the central dark object in M87 is a KTN/Kerr naked singularity instead of a KTN/Kerr black hole. We find that a non-zero gravitomagnetic monopole is still compatible with the current EHT observations, in which case the upper limit of n* cannot be greater than 1.1, i.e., n* 1.1 for the prograde rotation (a* > 0), and the lower limit of n* cannot be less than -1.1, i.e., n* -1.1 for the retrograde rotation (a* < 0). Moreover, if the circularity of the shadow can be measured on a precision of 1\%, the Kerr and KTN naked singularities can be falsified for M87*.