用于低功耗混合信号应用的平面隧道耦合场效应晶体管

J. Moon, K. Wang, R. Rajavel, S. Bui, D. Wong, D. Chow, J. Jenson
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摘要

本文报道了一种基于FET布局的室温谐振隧道耦合晶体管(TCT)的原型演示,其中隧道特性如负差分电阻(NDR)和峰值电流由具有高增益和跨导的表面肖特基栅极直接控制。器件的功能也可以在场效应管模式和隧道晶体管模式之间切换。制造工艺与传统的FET工艺完全兼容,提供完全可集成和可扩展的隧道晶体管技术。采用共振耦合的双通道InAlAs/InGaAs/InP HEMT异质结构制备了平面原型tts,并为每个通道提供了独立的电触点。电流-电压特性由井间和子带间隧穿决定。制造过程是在完整的3英寸晶圆上使用i线Cannon步进器完成的,植入的后门在紧密耦合双通道HEMT层的MBE生长之前定义。到目前为止,在室温下观察到的紧密耦合双通道HEMT层的最高迁移率为9600 cmWs
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Planar tunneling-coupled field-effect transistor for low-power mixed-signal applications
In this paper, we report a prototype demonstration of room-temperature resonant tunneling-coupled transistors in FET layout (TCT), in which tunneling characteristics such as negative differential resistance (NDR) and peak current are directly controlled by surface Schottky gate with high gain and transconductance. Functionality of the device can also be switched between FET mode and tunneling transistor mode. The fabrication process is fully compatible with conventional FET processes, offering a fully integrable and scalable tunneling transistor technology. Prototype planar TCTs were fabricated with resonantly-coupled dual-channel InAlAs/InGaAs/InP HEMT heterostructures by providing independent electrical contacts to each channel. The current-voltage characteristics are determined by an interwell and intersubband tunneling. The fabrication process was done using an I-line Cannon stepper on full 3-inch wafers with implanted back-gates defined prior to MBE growth of closely-coupled dual-channel HEMT layers. The highest mobility of the closely-coupled dual-channel HEMT layers observed so far is 9600 cmWs at room temperature
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