Characterization of 50 nm MOSFET with dielectric pocket
Characterizat ion of a metal-oxide-semi conductor field effect tran sistor incorporating dielectric pocket (DP) for suppression of short-channel effect (SCE ) is demonstrated by using 2D numerical simulation. An analysis of 120 nm and 50 nm channel length (LJ wit h DP incorp orated between the chann...
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Malaysian Institute of Physics
2007
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my.utm.80462017-10-11T01:43:12Z http://eprints.utm.my/id/eprint/8046/ Characterization of 50 nm MOSFET with dielectric pocket Fauzan, Zul Atfyi Saad, Ismail Ismail, Razali TK Electrical engineering. Electronics Nuclear engineering QC Physics Characterizat ion of a metal-oxide-semi conductor field effect tran sistor incorporating dielectric pocket (DP) for suppression of short-channel effect (SCE ) is demonstrated by using 2D numerical simulation. An analysis of 120 nm and 50 nm channel length (LJ wit h DP incorp orated between the chann el and source/drain has been done successfu lly. The DP has suppressed short channel effect (SCE) witho ut the need s of increasi ng the channel dopin g pro file. With uniform dopi ng of 10" em' and 10' 0 ern' for channel and source/drain region respectively, a reduc tion of 2.5 decade s of leakage current (lOFF) was obtained in MOSFET with DP without altering the drive current (ION) for 120 nm channe l length . A very low leakage current of 0.002 pAl l'm is obtained for DP device with drain voltag e (Vos) of 0.1 V and increase to 18 pAll'm with Vns = l.OV for 120 nm Lg. Th is obtained with drive current of 0.5 rnA and 5 rnA respectively. Meanwhile, with L. = 50 nm, 700 nAll'm leakage current and 1 mAll'm drive current was o bserved. With the same doping profile s, a reduct ion of 1.4 decades of 10 FF was shown by the incorpora tion of DP for Lg = 50 nm. Thus, the incorporation of DP will enhance the electri cal perform ance and give a very good control of the SCE for sca ling the MOSFET in nanometer regime for future developme nt of nanoe lectronics product. Malaysian Institute of Physics 2007 Article PeerReviewed text/html en http://eprints.utm.my/id/eprint/8046/2/%5B093-098%5D-zul.pdf Fauzan, Zul Atfyi and Saad, Ismail and Ismail, Razali (2007) Characterization of 50 nm MOSFET with dielectric pocket. Jurnal Fizik Malaysia, 28 (3-4). pp. 93-98. ISSN 0128-0333 |
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TK Electrical engineering. Electronics Nuclear engineering QC Physics Fauzan, Zul Atfyi Saad, Ismail Ismail, Razali Characterization of 50 nm MOSFET with dielectric pocket |
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Characterizat ion of a metal-oxide-semi conductor field effect tran sistor incorporating dielectric pocket (DP) for suppression of short-channel effect (SCE ) is demonstrated by using 2D numerical simulation. An analysis of 120 nm and 50 nm channel length (LJ wit h DP incorp orated between the chann el and source/drain has been done successfu lly. The DP has suppressed short channel effect (SCE) witho ut the need s of increasi ng the channel dopin g pro file. With uniform dopi ng of 10" em' and 10' 0 ern' for channel and source/drain region respectively, a reduc tion of 2.5 decade s of leakage current (lOFF) was obtained in MOSFET with DP without altering the drive current (ION) for 120 nm channe l length . A very low leakage current of 0.002 pAl l'm is obtained for DP device with drain voltag e (Vos) of 0.1 V and increase to 18 pAll'm with Vns = l.OV for 120 nm Lg. Th is obtained with drive current of 0.5 rnA and 5 rnA respectively. Meanwhile, with L. = 50 nm, 700 nAll'm leakage current and 1 mAll'm drive current was o bserved. With the same doping profile s, a reduct ion of 1.4 decades of 10 FF was shown by the incorpora tion of DP for Lg = 50 nm. Thus, the incorporation of DP will enhance the electri cal perform ance and give a very good control of the SCE for sca ling the MOSFET in nanometer regime for future developme nt of nanoe lectronics product. |
| format |
Article |
| author |
Fauzan, Zul Atfyi Saad, Ismail Ismail, Razali |
| author_facet |
Fauzan, Zul Atfyi Saad, Ismail Ismail, Razali |
| author_sort |
Fauzan, Zul Atfyi |
| title |
Characterization of 50 nm MOSFET with dielectric pocket
|
| title_short |
Characterization of 50 nm MOSFET with dielectric pocket
|
| title_full |
Characterization of 50 nm MOSFET with dielectric pocket
|
| title_fullStr |
Characterization of 50 nm MOSFET with dielectric pocket
|
| title_full_unstemmed |
Characterization of 50 nm MOSFET with dielectric pocket
|
| title_sort |
characterization of 50 nm mosfet with dielectric pocket |
| publisher |
Malaysian Institute of Physics |
| publishDate |
2007 |
| url |
http://eprints.utm.my/id/eprint/8046/2/%5B093-098%5D-zul.pdf http://eprints.utm.my/id/eprint/8046/ |
| _version_ |
1643644909611122688 |
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13.211869 |