Differential conductance of armchair single-wall carbon nanotubes due to presence of electron–phonon interaction |
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| Institution: | 1. Department of Physics, Alzahra University, Vanak, 1993891167 Tehran, Iran;2. Department of physics, Iran University of Science and Technology, Narmak, 16345 Tehran, Iran;3. Computational Physical Science Laboratory, Department of Nano Science, Institute for Research in Fundamental Sciences(IPM), P.O. Box19395–5531, Tehran, Iran;1. Department of Optics and Spectroscopy, Voronezh State University, Voronezh 394006, Russia;2. B.I. Stepanov Institute of Physics, National Academy of Sciences of Belarus, Minsk 220072, Belarus;3. P.N. Lebedev Physical Institute of the Russian Academy of Sciences, Moscow 119991, Russia;1. Department of Mechanical Engineering, Najafabad Branch, Islamic Azad University, Najafabad, Iran;2. Shahrekord University, Faculty of Engineering, P.O. Box 115, Shahrekord, Iran;1. Laboratoire des Matériaux Composites, Polymères et Céramiques, FSS 3018, Université de Sfax, Tunisia;2. Laboratoire de Génie Textile, Université de Monastir, ISET Ksar Hellal, Tunisia;3. College of Engineering, Industrial Engineering Department, Taiba University, Saudi Arabia;4. Laboratoire IMMM, Université du Maine, Le Mans, France;1. Physics Department, Faculty of Science and Science Education, School of Science, University of Sulaimani, Kurdistan Region, Iraq;2. Science Institute, University of Iceland, Dunhaga 3, IS-107 Reykjavik, Iceland;3. Department of Mechanical Engineering, National United University, 1, Lienda, Miaoli 36003, Taiwan;4. School of Science and Engineering, Reykjavik University, Menntavegur 1, IS-101 Reykjavik, Iceland;1. Physics Department, Belarusian State University, pr. Nezavisimosti 4, Minsk 220030, Belarus;2. Institute for Spectroscopy Russian Academy of Science, Fizicheskaya Str. 5, Troitsk, 142190 Moscow, Russia;3. Moscow Institute of Physics and Technology, Institutskii pereulok 9, Dolgoprudny, 141700 Moscow region, Russia |
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| Abstract: | We have theoretically investigated the first correction to conductance of armchair single wall carbon nanotubes (SWCNTs) with finite length, embedded between two electrodes, due to the presence of electron–transversal phonon interaction. The perturbative scheme has been used with finite length real space nearest neighbors tight binding method. Both radial breathing and tangential modes are investigated separately. It is found that not only the conductance correction crucially depends on source-drain voltage but also it strongly depends on the length and diameter of SWCNT. So, this work opens up opportunities to control the electrical conductance of SWCNT and increases yield of micro or nanodevices based on carbon nanotube. |
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| Keywords: | Armchair single wall carbon nanotube Electron phonon interaction Differential conductance |
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