Hot hole energy relaxation in Si/Si0.8Ge0.2 two dimensional hole gases

We have measured the energy loss rate as a function of carrier temperature for hot holes in Si/Si0.8Ge0.2 quantum wells with sheet carrier densities in the range (3–7)×1011 cm−2 at lattice temperatures of 0.35 and 2.0 K. Calculations of the energy loss rate for acoustic phonon deformation potential scattering with coupling constant 4.5 eV show good agreement with measurement. The deformation potential is consistent with a linear interpolation between the bulk Si and Ge values and is in agreement with that deduced from measurements of thermopower in similar samples. In contrast to previous work, we find no evidence for hole coupling to acoustic phonons via a piezoelectric interaction.