Title :
Performance Assessment of Nanoscale Field-Effect Diodes
Author :
Manavizadeh, Negin ; Raissi, Farshid ; Soleimani, Ebrahim Asl ; Pourfath, Mahdi ; Selberherr, Siegfried
Author_Institution :
Fac. of Electr. & Comput. Eng., Khaje Nasir Toosi Univ. of Technol., Tehran, Iran
Abstract :
We propose a new structure called a side-contacted field-effect diode (FED). The fabrication of this new structure is simple, and it offers good electrical characteristics. Furthermore, a comprehensive analysis of FEDs is presented. The effect of heavy-doping-induced band-gap narrowing on the performance of FEDs is investigated. Our results show that the calculated Ion/Ioff ratio is at least two orders of magnitude larger than that obtained from models neglecting this effect. The figures of merit including intrinsic gate delay time, the energy-delay product, and the subthreshold slope have been studied. Our numerical investigations of the scaling of FEDs indicate that, in the nanometer regime, FEDs have a higher Ion/Ioff ratio. The results demonstrate that FEDs are interesting candidates for future logic applications.
Keywords :
diodes; field effect devices; electrical characteristics; energy-delay product; heavy-doping-induced band-gap narrowing; intrinsic gate delay time; nanoscale field-effect diodes; performance assessment; side-contacted field-effect diode; subthreshold slope; Delay; Doping; Logic gates; MOSFETs; Performance evaluation; Reservoirs; Semiconductor process modeling; Band gap narrowing; double gate; field effect diode (FED); nano transistor; short channel effects; side-contacted;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2011.2152844
