P.Suveetha Dhanaselvam, A.Nithya Ananthi
In this paper, a new surface potential model for dual material junctionless surrounding (DMJLSG) MOSFET is developed. As scaling of devices has become nanometer size, controlling the source/drain channel is a tedious process. Formation of junction leads to several challenges on doping concentration and thermal budget. In order to overcome this issues junctionless multigate MOSFET is introduced. Junctionless is a device that have similar structure like conventional MOSFET but it is normally a ON device with a homogeneous doping polarity and a uniform doping concentration across the channel, source and drain. Surrounding gate MOSFET has been regarded as one of the promising device due to its finer gate controllability around the channel. Junctionless surrounding gate is a very simple device to design as it eliminates junction implantation and annealing. In this paper, surface potential of dual material junctionless surrounding gate MOSFET is developed using Parabolic approximation method and its performance is analysed.
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