Bias-Engineered Mobility in Advanced FD-SOI MOSFETs

被引：16

作者：

Fernandez, Cristina ^{[1
]}

Rodriguez, Noel ^{[1
]}

Ohata, Akiko ^{[2
]}

Gamiz, Francisco ^{[1
]}

Andrieu, Francois ^{[3
]}

Fenouillet-Beranger, Claire ^{[4
]}

Faynot, Olivier ^{[3
]}

Cristoloveanu, Sorin ^{[2
]}

机构：

[1] Univ Granada, Dept Elect, E-18071 Granada, Spain

[2] Minatec, Grenoble Inst Technol, IMEP LAHC, F-38016 Grenoble, France

[3] CEA LETI Minatec, F-38054 Grenoble, France

[4] STMicroelectronics, F-38926 Crolles, France

来源：

IEEE ELECTRON DEVICE LETTERS | 2013年 / 34卷 / 07期

关键词：

Carrier mobility; effective field; fully depleted silicon-on-insulator (FD-SOI) MOSFETs; ground plane; multibranch mobility; return point; threshold voltage; CHANNEL;

D O I：

10.1109/LED.2013.2264045

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

Ground-plane (GP) biasing in fully depleted siliconon-insulator (FD-SOI) MOSFETs allows not only the tuning of the threshold voltage, but also the mobility improvement. We study the carrier mobility enhancement by introducing the return point (or minimum value) of the effective field. This parameter defines the optimum GP bias condition to maximize the mobility gain. Different regions of operation can be discriminated according to the monotonic increase or decrease of the effective field with the front-gate bias. For large mobility enhancement, the return point voltage V-ret is adjusted via GP bias such as to exceed the threshold voltage. Experimental results show mobility gains over 70% in SOI MOSFETs with ultrathin buried oxide (10 nm) and Si film (8 nm).

引用

页码：840 / 842

页数：3

共 50 条

[41] Is FD-SOI immune to Floating Body Effects?
Park, Hyungjin
Lee, Kyunghwa
Colinge, Jean-Pierre
Cristoloveanu, Sorin
2018 IEEE SOI-3D-SUBTHRESHOLD MICROELECTRONICS TECHNOLOGY UNIFIED CONFERENCE (S3S), 2018,
[42] Carrier lifetime evaluation in FD-SOI layers
Lee, K. H.
Bawedin, M.
Park, H-J.
Parihar, M.
Cristoloveanu, S.
2017 47TH EUROPEAN SOLID-STATE DEVICE RESEARCH CONFERENCE (ESSDERC), 2017, : 140 - 143
[43] Body potential analysis of ultra thin gate oxide FD-SOI MOSFETs in accumulation mode operation
K. Hayama
K. Takakura
H. Ohyama
J. M. Rafí
A. Mercha
E. Simoen
C. Claeys
Journal of Materials Science: Materials in Electronics, 2005, 16 : 459 - 462
[44] Self-Heating Effects on the Thermal Noise of Deep Sub-Micron FD-SOI MOSFETs
Baltaci, Can
Leblebici, Yusuf
2017 13TH CONFERENCE ON PH.D. RESEARCH IN MICROELECTRONICS AND ELECTRONICS (PRIME), 2017, : 229 - 232
[45] Investigation of Self-Heating Effects in UTBB FD-SOI MOSFETs by a Modified Thermal Conductivity Model
Xing, Qian
Su, Yali
Lai, Junhua
Li, Bo
Li, Binghong
Bu, Jianhui
Zhang, Guohe
IEEE TRANSACTIONS ON ELECTRON DEVICES, 2022, 69 (08) : 4129 - 4137
[46] Body potential analysis of ultra thin gate oxide FD-SOI MOSFETs in accumulation mode operation
Hayama, K
Takakura, K
Ohyama, H
Rafí, JM
Mercha, A
Simoen, E
Claeys, C
JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS, 2005, 16 (07) : 459 - 462
[47] Suppression of 1/f Noise in Accumulation Mode FD-SOI MOSFETs on Si(100) and (110) Surfaces
Cheng, W.
Tye, C.
Gaubert, P.
Teramoto, A.
Sugawa, S.
Ohmi, T.
NOISE AND FLUCTUATIONS, 2009, 1129 : 337 - +
[48] Advanced 22nm FD-SOI Technolgy With Metal Gate Last Process
Xu, Cuiqin
Wang, Changfeng
Liao, Duanquan
2019 IEEE INTERNATIONAL CONFERENCE ON ELECTRON DEVICES AND SOLID-STATE CIRCUITS (EDSSC), 2019,
[49] Advanced Si/SiGe HBT architecture for 28-nm FD-SOI BiCMOS
Vu, V. T.
Celi, D.
Zimmer, T.
Fregonese, S.
Chevalier, P.
2016 IEEE BIPOLAR/BICMOS CIRCUITS AND TECHNOLOGY MEETING (BCTM), 2016, : 64 - 67
[50] Low temperature behavior of FD-SOI MOSFETs from micro- to nano-meter channel lengths
Maria, F. Serra di Santa
Theodorou, C.
Mescot, X.
Balestra, F.
Ghibaudo, G.
Casse, M.
2021 IEEE 14TH WORKSHOP ON LOW TEMPERATURE ELECTRONICS (WOLTE), 2021,

← 1 2 3 4 5 →