A first direct measurement of the intergalactic medium temperature around a quasar at z 6

The thermal state of the intergalactic medium (IGM) provides an indirect probe of both the H I and He II reionization epochs. Current constraints on the IGM temperature from the Lyα forest are restricted to the redshift range 2 ≤ z ≤ 4.5, limiting the ability to probe the thermal memory of H I reionization towards higher redshift. In this work, we present the first direct measurement of the IGM temperature around a z = 6 quasar by analyzing the Doppler widths of Lyα absorption lines in the proximity zone of SDSS J0818+1722. We use a high-resolution (R = 40 000) Keck/HIRES spectrum in combination with detailed numerical modelling to obtain the temperature at mean density, T0 = 23 600 ± 5000 6900 K (±9200 9300 K) at 68 (95) per cent confidence assuming a prior probability 13 500 K ≤ T0 ≤ 38 500 K following H I and He II reionization. This enables us to place an upper limit on the redshift of H I reionization, zH, within 33 comoving Mpc of SDSS J0818+1722. If the quasar reionizes the He II in its vicinity, then in the limit of instantaneous reionization we infer zH < 9.0(11.0) at 68 (95) per cent confidence assuming photoheating is the dominant heat source and that H I reionization is driven by ionizing sources with soft spectra, typical of Population II stars. If the H I and He II in the IGM around SDSS J0818+1722 are instead reionized simultaneously by a population of massive metal-free stars, characterized by very hard ionizing spectra, we obtain a tighter upper limit of zH < 8.4(9.4). Initiating reionization at higher redshifts produces temperatures which are too low with respect to our constraint unless the H I ionizing sources or the quasar itself has spectra significantly harder than typically assumed.