Abstract
Low resistance T-shaped gates as small as 60 nm have been fabricated using high resolution electron-beam lithography (EBL). A silicon nitride (SiNx) passivation layer has been used to define the bottom of the T gate and to provide mechanical support for the top of the T gate. A two-step etch was performed to define the gate footprint in the SiNx. First a short wet etch is used to isotropically etch the SiNx to provide a wider top opening following by reactive ion etching (RIE) to transfer the narrow resist pattern anisotropically into the bottom of the SiNx. A bilayer resist lift-off process is then used to determine the top of the T gate and the thickness of the gate metal. End-to-end gate resistances of 450 Ω/mm have been measured for sub-0.1-μm-long gates with a 0.5-μm-wide top and with 250-nm-thick metallization. The resistance can easily be further decreased by increasing the metal thickness and/or by widening the top of the T gate. Gate capacitances Cgs and Cgd measured on GaAs metal–semiconductor field effect transistors (MESFETs) with a SiNx layer showed a slight increase in capacitance compared to the devices without the SiNx layer. Slightly higher extrinsic transconductances gm and unity current-gain cut-off frequencies fT were achieved for the devices with the SiN layer. Intrinsic unity current-gain cut-off frequencies fT of up to 102 GHz were measured. The fabrication of GaAs MESFETs with T gates down to 60 nm is demonstrated with the SiNx passivation layer process.
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More From: Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures Processing, Measurement, and Phenomena
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