GRB 200716C: strong evidence for a short burst being lensed

The gamma-ray bursts (GRBs), as astronomical phenomena of cosmological origin, may be lensed during their propagation. The detection of lensed pulses with millisecond-to-second time delays is a clue to the existence of intermediate-mass black holes, which has not been directly observed, yet. The prompt emissions of lensed GRBs are generally considered to have repeated pulses with identical light curves and spectra but different fluxes and slightly offset positions. In this paper, we chose to search within individual GRB to exclude the effect of spatial location. We report our finding of an interesting case GRB 200716C in a systematic search for lensed GRBs with the data of the Fermi/GBM, Swift/BAT and HXMT/HE. The autocorrelation of GRB 200716C light curves in different energy bands satisfy the selection criteria of a lensing candidate. Using the Bayesian inference to quantitatively compare models also results in a Bayesian factor more inclined to the lens model. Besides, the spectral analysis of the two pulses show that they have similar spectral properties and both follow the empirical relation of short GRBs. All these facts suggest that although the GRB 200718C is a long GRB in duration, it may actually be a short GRB undergoing gravitational lensing. If interpreting as a lensed GRB, the redshifted mass $(1+z_{L})M_L$ of the lensing object is estimated to be $4.72^{+2.31}_{-1.06}$ $\times$ $10^5$ $M_{\odot}$ (90$\%$ credibility), indicating that it may be an intermediate-mass black hole.