Browsing by Author "Baruah, Ratul Kumar"
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Item Modelling and simulation of short channel junctionless transistor from an analog design perspective(2015) Baruah, Ratul KumarLow power and high performance devices are in demand for today’s microelectronics market. Conventional planar CMOS transistors on bulk silicon substrate have been a key component in ultralarge- scale integration technology for the past four decades, but are approaching the fundamental physical limits imposed by short-channel-effects (SCEs) and gate oxide tunnelling. Fully depleted multiple-gatefield- effect-transistors (Mug-FETs) was proposed as an alternative to planar devices because of their robust electrostatic control which too face technological challenges in super-steep doping profile requirement and high thermal budget for sub-20 nm channel length era along with excessive SCEs. Junctionless transitors (JLT), which do not have any pn junction in the source-channel-drain path can be scaled to lower channel lengths because of lower SCEs and easy fabrication steps and can be a prospective candidate for replacement to conventional Mug-FETs in sub-20 nm regime. The thesis discusses about the analog and digital performances; process and temperature effects of a double-gate junctionless transistor (DGJLT). The effects of the fringing fields on the device and circuit performances of a JLT are discussed. Different architectures to improve the analog performance of a JLT are examined with the help of extensive device simulations. An analytical channel potential model for shorter-channel dual-material gate DGJLT valid in subthreshold region is developed. Also, a semi-analytical electrostatic potential and a drain current model for single-material gate DGJLT are derived. Finally, the process simulation of DGJLT is carried out with the help of Genius device simulator.