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Publication
IEEE Transactions on Electron Devices
Paper
Impact ionization MOS (I-MOS) - Part I : Device and circuit simulations
Abstract
One of the fundamental problems in the continued scaling of transistors is the 60 mV/dec room temperature limit in the subthreshold slope. In part I this work, a novel transistor based on the field-effect control of impact-ionization (I-MOS) is explored through detailed device and circuit simulations. The I-MOS uses gated-modulation of the breakdown voltage of a p-i-n diode to switch from the OFF state to the ON state and vice-versa. Device simulations using MEDICI show that the I-MOS has a subthreshold slope of 5 mV/dec or lower and ION > 1 mA /μm at 400 K. Simulations were used to further explore the characteristics of the I-MOS including the transients of the turn-on mechanism, the short-channel effect, scalability, and other important device attributes. Circuit mode simulations were also used to explore circuit design using I-MOS devices and the design of an I-MOS inverter. These simulations indicated that the I-MOS has the potential to replace CMOS in high performance and low power digital applications. Part II of this work focuses on I-MOS experimental results with emphasis on hot carrier effects, germanium p-i-n data and breakdown in recessed structure devices. © 2005 IEEE.