Theory of the electron phonon relaxation time in cuprates: Reproducing the observed temperature behaviour

Abstract

We have studied the temperature dependence of the rate of energy transfer from electronic sub-system to phononic sub-system in the case of cuprates, when the system is photo-excited by a femtosecond laser pulse. In the pseudogap state, taking the electronic dispersion as linear near the nodal points of the Brillouin zone, we show that the rate of energy transfer from electronic sub-system to phononic sub-system is proportional to T5 at lower temperatures (T<<T0), and is proportional to T at higher temperatures (T>>T0), here T0 is the Debye temperature for cuprates. The linear electronic dispersion in the pseudogap state introduces new terms in the expression of energy transfer as given by M. I. KAGANOV et.al. kaganov. But the leading terms are the same which are found in the case of metals in the above reference. The electron-phonon relaxation time follows T-3 law for cuprates which agrees well with the experimental results demsar,Jdemsar.