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In the mm-wave device investigation the limitations imposed by parasitic elements upon high-frequency performance were investigated. It was determined that the high field domain that forms in the channel of field-effect type transistors presents a limitation to high frequency operation. The domain capacitance creates a complex pole in the unilateral gain that results in a 12 db/octave roll-off above the resonant frequency of the pole. The various factors that effect this pole have been investigated. Current FETs are limited to upper operation frequencies of about 150-160 GHz. The GaAs(1-y)P(y)-Ga(1-yInx)As material system is proposed for potential HEMT applications. This structure is made of strained layers that can be grown with y = 2x free from dislocations, and lattice matched to a GaAs substrate. HEMT devices fabricated in such structure have several potential advantages over the conventional AlGaAs-GaAs HEMT. First, the active layer is Ga(1-x)In(x)As instead of GaAs. Thus, the potential exists for higher room temperature mobilities with larger saturation velocities and a larger conduction band edge discontinuity. An advantage over the Ga(0.47)In(0.53)As-InP system is that the composition of the Ga(1-x)In(x)As in the proposed structure can be varied to optimize the HEMT performance, whereas the Ga(0.47)In(0.53)As has a fairly low bandgap for optimum FET devices.