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Fabrication and characterization of groove-gate MOSFETs based on a self-aligned CMOS process |
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| Authors: | Ma Xiao-Hu Hao Yue Sun Bao-Gang Gao Hai-Xi Ren Hong-Xi Zhang Jin-Cheng Zhang Jin-Feng Zhang Xiao-Ju and Zhang Wei-Dong |
| Institution: | Microelectronics Institute, Xidian University, Xi'an 710071, China; Key Laboratory of Ministry of Education for Wide Band-gap Semiconductor Materials and Devices,Xidian University, Xi'an 710071, China; Microelectronics Institute, Chinese Academy of Sciences, Beijing 100029, China; School of Design, Engineering and Computing, Bournemouth University, UK |
| Abstract: | N and P-channel groove-gate MOSFETs based on a self-aligned CMOS process have been fabricated and characterized. For the devices with channel length of 140nm, the measured drain induced barrier lowering (DIBL) was 66mV/V for n-MOSFETs and 82mV/V for p-MOSFETs. The substrate current of a groove-gate n-MOSFET was 150 times less than that of a conventional planar n-MOSFET. These results demonstrate that groove-gate MOSFETs have excellent capabilities in suppressing short-channel effects. It is worth emphasizing that our groove-gate MOSFET devices are fabricated by using a simple process flow, with the potential of fabricating devices in the sub-100nm range. |
| Keywords: | self-aligned groove-gate MOSFETs DIBL short-channel effects |
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