A New Type of Si-Based MOSFET for Radiation Reinforcement

Liu, Weifeng and Zhou, Zhirou and Zhang, Dong and Song, Jianjun (2024) A New Type of Si-Based MOSFET for Radiation Reinforcement. Micromachines, 15 (2). p. 229. ISSN 2072-666X

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Abstract

This paper thoroughly analyses the role of drift in the sensitive region in the single-event effect (SEE), with the aim of enhancing the single-particle radiation resistance of N-type metal-oxide semiconductor field-effect transistors (MOSFETs). It proposes a design for a Si-based device structure that extends the lightly doped source–drain region of the N-channel metal-oxide semiconductor (NMOS), thereby moderating the electric field of the sensitive region. This design leads to a 15.69% decrease in the charge collected at the leaky end of the device under the standard irradiation conditions. On this basis, a device structure is further proposed to form a composite metal-oxide semiconductor (MOS) by connecting a pn junction at the lightly doped source–drain end. By adding two charge paths, the leakage collection charge is further reduced by 13.85% under standard irradiation conditions. Moreover, the deterioration of the drive current in the purely growing lightly doped source–drain region can be further improved. Simulations of single-event effects under different irradiation conditions show that the device has good resistance to single-event irradiation, and the composite MOS structure smoothly converges to a 14.65% reduction in drain collection charge between 0.2 pC/μ
m and 1 pC/μ
m Linear Energy Transfer (LET) values. The incidence position at the source-to-channel interface collects the highest charge reduction rate of 28.23%. The collecting charge reduction rate is maximum, at 17.12%, when the incidence is at a 45-degree angle towards the source.

Item Type: Article
Subjects: European Scholar > Multidisciplinary
Depositing User: Managing Editor
Date Deposited: 01 Feb 2024 05:57
Last Modified: 01 Feb 2024 05:57
URI: http://article.publish4promo.com/id/eprint/3242

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