Analytical Model of Spatial Distribution of Potential along the Channel of Low Band Gap GNR-FET at High Temperature

Tanvir Muntasiri; Md. Shofiqul Islam; Shuvomoy Das Gupta; IEEE

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Analytical Model of Spatial Distribution of Potential along the Channel of Low Band Gap GNR-FET at High Temperature

Tanvir Muntasiri, Md. Shofiqul Islam, Shuvomoy Das Gupta and IEEE

2012 INTERNATIONAL CONFERENCE ON INFORMATICS, ELECTRONICS & VISION (ICIEV), pp.930-934

01/01/2012

Abstract

Computer Science

Computer Science, Information Systems

Engineering

Engineering, Electrical & Electronic

Science & Technology

Technology

In this paper, an analytical model is developed for potential along the channel of low band gap graphene nanoribbon field effect transistor (GNR-FET) at high temperature. For the derivation of equation of potential, nonlocality approximation of poisson's equation has been used. The spatial variation of potential along the channel has been investigated with the variation of top gate voltage, drain voltage, top gate length and temperature. Since graphene nanoribbon with higher width has very narrow band-gap, due to inverse relationship between ribbon width and band-gap, this analytical model would be applicable for GNR with larger width.

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Title: Analytical Model of Spatial Distribution of Potential along the Channel of Low Band Gap GNR-FET at High Temperature
Creators - without role: Tanvir Muntasiri - Bangladesh University
Md. Shofiqul Islam - Bangladesh University
Shuvomoy Das Gupta - Bangladesh University
IEEE
Publication Details: 2012 INTERNATIONAL CONFERENCE ON INFORMATICS, ELECTRONICS & VISION (ICIEV), pp.930-934
Publisher: IEEE
Number of pages: 5
Identifiers: 9935150108331
Academic Unit: King Abdulaziz University
Language: English
Resource Type: Conference proceeding