Temperature dependence of emission efficiency and lasing threshold in laser diodes

It is found that in GaAs 1-x P x injection lasers both the spontaneous emission efficiency η and the laser threshold j vary exponentially with the temperature T: \eta = \eta_{0} \exp(-T/\theta_{1}) and j = j_{0} \exp(T/\theta_{2}) . θ 1 and θ 2 are usually nearly equal and range between 50 and 110°K. The behavior of the external efficiency is correlated with the temperature dependence of the absorption along the propagation path of the radiation: as the temperature increases, the exponential absorption edge shifts to lower energies faster than the emission peak. The difference between the two shifts is nearly linear with temperature. The effect of self-absorption on external efficiency was tested by measuring the light emitted transversely to the p-n junction through a layer of constant thickness. With such a geometry, it is shown that the efficiency should vary as \exp [-A \exp (T/\theta)] . The experiment agrees with this prediction.