Hot electron cooling in Dirac semimetal Cd3As2 due to polar optical phonons

Abstract

A theory of hot electron cooling power due to polar optical phonons P op is developed in three-dimensional Dirac semimetal(3DDS) Cd3As2 taking account of hot phonon effect. Hot phonon distribution Nq and P op are investigated as a function of electron temperature Te, electron density ne, and phonon relaxation time τp. It is found that P op increases rapidly (slowly) with Te at lower (higher) temperature regime. Whereas, P op is weakly deceasing with increasing ne. The results are compared with those for three-dimensional electron gas (3DEG) in Cd3As2 semiconductor. Hot phonon effect is found to reduce P op considerably and it is stronger in 3DDS Cd3As2 than in Cd3As2 semiconductor. P op is also compared with the hot electron cooling power due to acoustic phonons P ac. We find that a crossover takes place from P ac dominated cooling at low Te to P op dominated cooling at higher Te. The temperature at which this crossover occurs shifts towards higher values with the increase of ne. Also, hot electron energy relaxation time τe is discussed and estimated.