Abstract
We report on the studies of steady-state high-field drift velocity in GaN/AlGaN HEMT structures. The results are compared with a model taking into account the effect of hot phonon production on the high-field transport of electrons. In the theoretical model Cerenkov effects and phonon drift are assumed to be negligible. Experimental results show that the drift velocity saturates at vd = 1.0 × 107 cm s−1 at electric fields in excess of F ≈ 7.5 kV cm−1 at TL = 77 K. Theoretical calculations indicate that the enhanced scattering rate due to the production of non-drifting hot phonons reduces the drift velocity. The reduction in the drift velocity increases with increasing population of non-drifting non-equilibrium phonons.
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