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Self-aligned-gate heterostructure field-effect transistor(HFET) is fabricated using a wet-etching method.Titanium nitride(TiN) is one kind of thermal stable material which can be used as the gate electrode.A Ti/Au cap layer is fixed on the gate and acts as an etching mask.Then the T-shaped gate is automatically formed through over-etching the TiN layer in 30% H_2O_2 solution at 95 ℃.After treating the ohmic region with an inductively coupled plasma(ICP) method,an Al layer is sputtered as an ohmic electrode.The ohmic contact resistance is approximately 0.3 Ω·mm after annealing at a low-temperature of 575 ℃ in N_2 ambient for 1 min.The TiN gate leakage current is only 10~(-8) A after the low-temperature ohmic process.The access region length of the self-aligned-gate(SAG) HFET was reduced from 2 μm to 0.3 μm compared with that of the gate-first HFET.The output current density and transconductance of the device which has the same gate length and width are also increased.
Self-aligned-gate heterostructure field-effect transistor (HFET) is fabricated using a wet-etching method. Titanium nitride (TiN) is one kind of thermal stable material which can be used as the gate electrode. fixed on the gate and acts as an etching mask. T the the T-shaped gate is automatically formed through an over-etching the TiN layer in 30% H 2 O 2 solution at 95 ° C. After the the electroluminescent region with an inductively coupled plasma (ICP) method , an Al layer is sputtered as an ohmic electrode. The ohmic contact resistance is approximately 0.3 Ω · mm after annealing at a low-temperature of 575 ° C. in N 2 ambient for 1 min. ) A after the low-temperature ohmic process. The access region length of the self-aligned-gate (SAG) HFET was reduced from 2 μm to 0.3 μm compared with that of the gate-first HFET.The output current density and transconductance of the device which has the same gate length and width are also increased.