We present the first observational evidence that light propagating near a
rotating black hole is twisted in phase and carries orbital angular momentum
(OAM). This physical observable allows a direct measurement of the rotation of
the black hole. We extracted the OAM spectra from the radio intensity data
collected by the Event Horizon Telescope from around the black hole M87* by
using wavefront reconstruction and phase recovery techniques and from the
visibility amplitude and phase maps. This method is robust and complementary to
black-hole shadow circularity analyses. It shows that the M87* rotates
clockwise with an estimated rotation parameter a=0.90±0.05 with ∼95%
confidence level (c.l.) and inclination i=17∘±2∘, equivalent to
a magnetic arrested disk with inclination i=163∘±2∘. From our
analysis we conclude, within a 6 σ c.l., that the M87* is rotating.Comment: Small addition on coherence. 5 pages, 2 figures Accepted for
publication in MNRAS Letter