Thermal state of the intergalactic medium at z2-4

Abstract

We present a new method to infer parameters of the temperature-density relation in the intergalactic medium in the post-reionization epoch at z 2-4. This method is based on the analysis of the Lyα absorbers distribution over column densities and Doppler parameters by the model joint probability density function. This approach allows us to measure the power-law index γ of the temperature-density relation and a certain combination of the temperature at the mean density T0 and hydrogen photoionization rate . To estimate T0 and separately, we employ measurements of the Lyα forest effective opacity and the model gas probability density function. We show that γ tends to be lower than 1.6 and reaches 1.3 at redshift 3. The inferred temperatures at the mean density are (20.5)×104 K in the studied redshift range. Both these estimates favour HeII reionization at z3. We find that the hydrogen photoionization rate is 0.6×10-12 s-1, which is consistent with previous measurements.