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Graphene field-effe...
Graphene field-effect transistors for high frequency applications
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- Asad, Muhammad, 1986 (author)
- Chalmers tekniska högskola,Chalmers University of Technology
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- Bonmann, Marlene, 1988 (author)
- Chalmers tekniska högskola,Chalmers University of Technology
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- Yang, Xinxin, 1988 (author)
- Chalmers tekniska högskola,Chalmers University of Technology
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- Vorobiev, Andrei, 1963 (author)
- Chalmers tekniska högskola,Chalmers University of Technology
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- Stake, Jan, 1971 (author)
- Chalmers tekniska högskola,Chalmers University of Technology
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- Banszerus, Luca (author)
- Rheinisch-Westfaelische Technische Hochschule Aachen,RWTH Aachen University
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- Stampfer, Christoph (author)
- Rheinisch-Westfaelische Technische Hochschule Aachen,RWTH Aachen University
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- Otto, Martin (author)
- Gesellschaft fur Angewandte Mikro- und Optoelektronik mit Beschrankterhaftung GmbH (AMO),AMO GmbH
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- Neumaier, Daniel (author)
- Gesellschaft fur Angewandte Mikro- und Optoelektronik mit Beschrankterhaftung GmbH (AMO),AMO GmbH
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(creator_code:org_t)
- 2018
- 2018
- English.
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In: ; November 2018
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Abstract
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- Realization of competitive high frequency graphene field-effect transistors (GFETs) is hindered, in particular, by extrinsic scattering of charge carriers and relatively high contact resistance of the graphene-metal contacts, which are both defined by the quality of the corresponding graphene top interfaces [1]. In this work, we report on improved performance of GFETs fabricated using high quality chemical vapour deposition (CVD) graphene and modified technology steps. The modified processing flow starts with formation of the gate dielectric, which allows for preserving the high velocity of charge carriers, and, simultaneously, providing very low contact resistance. The transfer line method (TLM) analysis and fitting the GFET transfer characteristics (Fig. 1) both reveal very low specific width contact resistivity of the top contacts, down to 95 Ω⋅μm. Fitting shows also that the field-effect mobility in the GFETs can be up to 5000 cm2/(V⋅s). The measured (extrinsic) transit frequency (fT) and the maximum frequency of oscillation (fmax) are up to 35 GHz and 40 GHz, respectively, for GFETs with gate length Lg=0.5 μm (Fig. 2), which are highest among those reported so far for the GFETs with similar gate length and comparable with those of Si MOSFETs [2,3]. The dependencies of the fT and fmax on the gate length indicate that these GFETs are very promising for the scaling down and in particular for the development of power amplifiers operating in the mm-wave frequency range.
Subject headings
- NATURVETENSKAP -- Fysik (hsv//swe)
- NATURAL SCIENCES -- Physical Sciences (hsv//eng)
- TEKNIK OCH TEKNOLOGIER -- Elektroteknik och elektronik (hsv//swe)
- ENGINEERING AND TECHNOLOGY -- Electrical Engineering, Electronic Engineering, Information Engineering (hsv//eng)
- TEKNIK OCH TEKNOLOGIER -- Nanoteknik (hsv//swe)
- ENGINEERING AND TECHNOLOGY -- Nano-technology (hsv//eng)
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To the university's database
- By the author/editor
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Asad, Muhammad, ...
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Bonmann, Marlene ...
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Yang, Xinxin, 19 ...
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Vorobiev, Andrei ...
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Stake, Jan, 1971
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Banszerus, Luca
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show more...
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Stampfer, Christ ...
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Otto, Martin
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Neumaier, Daniel
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show less...
- About the subject
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- NATURAL SCIENCES
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NATURAL SCIENCES
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and Physical Science ...
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- ENGINEERING AND TECHNOLOGY
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ENGINEERING AND ...
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and Electrical Engin ...
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- ENGINEERING AND TECHNOLOGY
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ENGINEERING AND ...
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and Nano technology
- By the university
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Chalmers University of Technology