Channel Length-Based Comparative Analysis of Temperature and Electrical Characteristics for SiNWT and GeNWT
This paper investigates the temperature sensitivity and electrical characteristics of Silicon Nanowire Transistor (SiNWT) and Germanium Nanowire Transistor (GeNWT) depending on variable channel length (Lg). It also studies the possibility of using them as a temperature nanosensor. The MuGFET simulat...
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University of Bahrain
2020
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| Online Access: | http://umpir.ump.edu.my/id/eprint/27207/1/Channel%20Length-Based%20Comparative%20Analysis%20of%20Temperature.pdf http://umpir.ump.edu.my/id/eprint/27207/ https://journal.uob.edu.bh/handle/123456789/3701 http://dx.doi.org/10.12785/ijcds/090109 |
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my.ump.umpir.272072020-01-03T02:54:22Z http://umpir.ump.edu.my/id/eprint/27207/ Channel Length-Based Comparative Analysis of Temperature and Electrical Characteristics for SiNWT and GeNWT AlAriqi, Hani Taha Jabbar, Waheb A. Hashim, Yasir Hadi, Manap TK Electrical engineering. Electronics Nuclear engineering This paper investigates the temperature sensitivity and electrical characteristics of Silicon Nanowire Transistor (SiNWT) and Germanium Nanowire Transistor (GeNWT) depending on variable channel length (Lg). It also studies the possibility of using them as a temperature nanosensor. The MuGFET simulation tool was exploited to investigate the characteristics of the considered nanowire transistors. Current-voltage characteristics with different values of temperature with channel length [Lg = 25, 45, 65, 85 and 105 nanometer (nm)], were simulated. MOS diode mode connection suggested measuring the temperature sensitivity of SiNWT and GeNWT too. Three (3) electrical characteristics namely; (i) Subthreshold Swing (SS), (ii) Threshold voltage (VT), and (iii) Drain-induced barrier lowering (DIBL) were evaluated and compared for both NWTs. The obtained results show that SiNWT achieved a better temperature sensitivity with channel length range between 25 nm to 105 nm at operation voltage (VDD) range 1 V to 5 V nm. It is very clear that the temperature sensitivity increased remarkably by increasing channel length for both of SiNWT and GeNWT as well, but in SiNWT the sensitivity is more steady compared to GeNWT that showing less sensitivity. Moreover, SiNWT shows better result in terms of electrical performance metrics for various channel length at T = 300 K comparing with GeNWT. University of Bahrain 2020 Article PeerReviewed pdf en cc_by_nc_nd_4 http://umpir.ump.edu.my/id/eprint/27207/1/Channel%20Length-Based%20Comparative%20Analysis%20of%20Temperature.pdf AlAriqi, Hani Taha and Jabbar, Waheb A. and Hashim, Yasir and Hadi, Manap (2020) Channel Length-Based Comparative Analysis of Temperature and Electrical Characteristics for SiNWT and GeNWT. International Journal of Computing and Digital Systems, 9 (1). pp. 87-95. ISSN 2210-142X https://journal.uob.edu.bh/handle/123456789/3701 http://dx.doi.org/10.12785/ijcds/090109 |
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TK Electrical engineering. Electronics Nuclear engineering AlAriqi, Hani Taha Jabbar, Waheb A. Hashim, Yasir Hadi, Manap Channel Length-Based Comparative Analysis of Temperature and Electrical Characteristics for SiNWT and GeNWT |
| description |
This paper investigates the temperature sensitivity and electrical characteristics of Silicon Nanowire Transistor (SiNWT) and Germanium Nanowire Transistor (GeNWT) depending on variable channel length (Lg). It also studies the possibility of using them as a temperature nanosensor. The MuGFET simulation tool was exploited to investigate the characteristics of the considered nanowire transistors. Current-voltage characteristics with different values of temperature with channel length [Lg = 25, 45, 65, 85 and 105 nanometer (nm)], were simulated. MOS diode mode connection suggested measuring the temperature sensitivity of SiNWT and GeNWT too. Three (3) electrical characteristics namely; (i) Subthreshold Swing (SS), (ii) Threshold voltage (VT), and (iii) Drain-induced barrier lowering (DIBL) were evaluated and compared for both NWTs. The obtained results show that SiNWT achieved a better temperature sensitivity with channel length range between 25 nm to 105 nm at operation voltage (VDD) range 1 V to 5 V nm. It is very clear that the temperature sensitivity increased remarkably by increasing channel length for both of SiNWT and GeNWT as well, but in SiNWT the sensitivity is more steady compared to GeNWT that showing less sensitivity. Moreover, SiNWT shows better result in terms of electrical performance metrics for various channel length at T = 300 K comparing with GeNWT. |
| format |
Article |
| author |
AlAriqi, Hani Taha Jabbar, Waheb A. Hashim, Yasir Hadi, Manap |
| author_facet |
AlAriqi, Hani Taha Jabbar, Waheb A. Hashim, Yasir Hadi, Manap |
| author_sort |
AlAriqi, Hani Taha |
| title |
Channel Length-Based Comparative Analysis of Temperature and Electrical Characteristics for SiNWT and GeNWT |
| title_short |
Channel Length-Based Comparative Analysis of Temperature and Electrical Characteristics for SiNWT and GeNWT |
| title_full |
Channel Length-Based Comparative Analysis of Temperature and Electrical Characteristics for SiNWT and GeNWT |
| title_fullStr |
Channel Length-Based Comparative Analysis of Temperature and Electrical Characteristics for SiNWT and GeNWT |
| title_full_unstemmed |
Channel Length-Based Comparative Analysis of Temperature and Electrical Characteristics for SiNWT and GeNWT |
| title_sort |
channel length-based comparative analysis of temperature and electrical characteristics for sinwt and genwt |
| publisher |
University of Bahrain |
| publishDate |
2020 |
| url |
http://umpir.ump.edu.my/id/eprint/27207/1/Channel%20Length-Based%20Comparative%20Analysis%20of%20Temperature.pdf http://umpir.ump.edu.my/id/eprint/27207/ https://journal.uob.edu.bh/handle/123456789/3701 http://dx.doi.org/10.12785/ijcds/090109 |
| _version_ |
1654960289045544960 |
| score |
13.160551 |