TEMPERATURE AND CARRIER DENSITY-DEPENDENCE OF MOBILITY IN A HEAVILY-DOPED QUANTUM-WELL

Interest in heterostructure field-effect transistors (HFETs) utilizing narrow, heavily doped channels motivates a study of mobility in heavi ly doped quantum wells. We have measured electron mobility as a functi on of carrier concentration and temperature in an In0.15Ga0.85As quant um well with a doping of N(D) = 6 X 10(12) cm-2. Mobility is found to rise significantly as the ratio of electron to impurity concentration increases. Even at T = 300 K, mu climbs by nearly a factor of 2 as car rier concentration in the well is increased from 1 X 10(12) to 5 X 10( 12) cm-2. The results agree qualitatively with recently published theo retical predictions, and suggest that device models utilizing constant mobility are not appropriate for HFETs using doped two-dimensional ch annels.