The quantum Goos-Hanchen effect in graphene is investigated. The Goos-Hanchen phase shift is derived by solving the Dirac eigenvalue differential equation. This phase shift varies with the angle of incidence of the quasiparticle Dirac fermions on the barr

Ahmed Saeed Abd El Razek;

Abstract


Investigation of Spin and Charge Carriers Transport in Nanoscale Devices

Other data

Title The quantum Goos-Hanchen effect in graphene is investigated. The Goos-Hanchen phase shift is derived by solving the Dirac eigenvalue differential equation. This phase shift varies with the angle of incidence of the quasiparticle Dirac fermions on the barr
Other Titles دراسة إنتقال حاملات الشحنة و الحركة المغزلية لها فى النبائط النانومترية.
Authors Ahmed Saeed Abd El Razek
Keywords The quantum Goos-Hanchen effect in graphene is investigated. The Goos-Hanchen phase shift is derived by solving the Dirac eigenvalue differential equation. This phase shift varies with the angle of incidence of the quasiparticle Dirac fermions on the barr
Issue Date 2013
Description 
Investigation of Spin and Charge Carriers Transport in Nanoscale Devices

Attached Files

File SizeFormat
116178g1196.pdf525.17 kBAdobe PDFView/Open
Recommend this item

Similar Items from Core Recommender Database

Google ScholarTM

Check

The quantum Goos-Hanchen effect in graphene is investigated. The Goos-Hanchen phase shift is derived by solving the Dirac eigenvalue differential equation. This phase shift varies with the angle of incidence of the quasiparticle Dirac fermions on the barr


Items in Ain Shams Scholar are protected by copyright, with all rights reserved, unless otherwise indicated.