Interstellar dust plays a crucial role in the evolution of the Universe by assisting the formation of molecules(1), by triggering the formation of the first low-mass stars(2), and by absorbing stellar ultraviolet - optical light and subsequently re-emitting it at infrared/millimetre wavelengths. Dust is thought to be produced predominantly in the envelopes of evolved ( age > 1 Gyr), low-mass stars(3). This picture has, however, recently been brought into question by the discovery of large masses of dust in the host galaxies of quasars(4,5) at redshift z > 6, when the age of the Universe was less than 1 Gyr. Theoretical studies(6-8), corroborated by observations of nearby supernova remnants(9-11), have suggested that supernovae provide a fast and efficient dust formation environment in the early Universe. Here we report infrared observations of a quasar at redshift 6.2, which are used to obtain directly its dust extinction curve. We then show that such a curve is in excellent agreement with supernova dust models. This result demonstrates a supernova origin for dust in this high-redshift quasar, from which we infer that most of the dust at high redshifts probably has the same origin.
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