Namiranian - Iran University of Science & Technology - School of Physics

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Namiranian



• Personal Homepage: • Google Scholar Full name: Afshin Namiranian Position: Assistant Professor Phone: 98-21-77451500-10 Ex: 3483 Fax: 98-21-77240497 Email: afshinn AT iust.ac.ir Address: Iran University of Science & Technology, Tehran, Iran University Degrees: • Ph.D: Institute for Adbanced Studies in Basic Sciences (IASBS), Zanjan, Iran. • MS.c: IASBS, Zanjan, Iran • BS.c: Sharif University of Technology, Tehran, Iran Current Research: • Mesoscopic Physics. Publications- Journal Papers Electron transport in graphene/h-BN lateral hybrids: Rhombus and bowtie domains A Mehri, M Jamaati, A Namiranian Superlattices and Microstructures, 109, 264 (2017) Q2 Electrical Conductance of a Zig Zag Carbon Nanotube in the Presence of a Few Vacancies Using Recursive Green's Function Method F Rabbani, S Gowdini, A Namiranian ECS Journal of Solid State Science and Technology, 6, M92 (2017) Q1 Role of interlayer spacing in electrical transport of bilayer graphene nanoribbon: Perpendicular and armchair direction M Jamaati, A Namiranian Superlattices and Microstructures, 101, 354 (2017) Q2 Differential conductance of armchair single-wall carbon nanotubes due to presence of electron–phonon interaction F Tajik, A Namiranian Physica E: Low-dimensional Systems and Nanostructures, 84, 79 (2016) Q2 Electron-phonon interaction in an $ N $-atomic 1-D periodic chain M Zahidy, F Ghadirian, A Namiranian arXiv preprint arXiv:1609.09131 (2016) Random vacancy effect on the electronic transport of zigzag graphene nanoribbon using recursive Green's function M Jamaati, A Namiranian Computational Materials Science, 101, 156 (2015) Q1 The estimation of current and differential conductance of armchair single-wall carbon nanotubes via dissipative energy method P Ayria1a, A Namiranian Eur. Phys. J. B, 86, 4 (2013) Q2 Electronic features induced by Stone–Wales defects in zigzag and chiral carbon nanotubes P. Partovi-Azara, S. Panahian Jandb, A. Namiranian, H. Rafii-Tabara Computational Materials Science, 79, 82 (2013) Q1 Stone–Wales defects can cause a metal–semiconductor transition in carbon nanotubes depending on their orientation P Partovi-Azar, A Namiranian Journal of Physics: Condensed Matter, 24, 035301 (2012) Q1 ELECTRICAL RESISTIVITY MONITORING OF ROCK SAMPLES DURING UNIAXIAL COMPRESSION TEST A GHORBANI, A GHARI HOSSEIN, A NAMIRANIAN IRANIAN JOURNAL OF GEOPHYSICS, 6, 34 (2012) Spectroscopy of phonon modes of a single-wall armchair carbon nanotube using measurements of nonlinear conductance: Theory P Ayria, ANamiranian Scientia Iranica, 18, 1609 (2011) Q3 Effect of magnetic impurity on spin-polarized transport in armchair single-wall carbon nanotubes M Kariminezhad, M Kavand, A Namiranian Physica E: Low-dimensional Systems and Nanostructures, 43, 97 (2010) Q2 The effect of the orientation of the Stone–Wales defects on the bands structure of carbon nanotubes P Partovi-Azar1, A Namiranian J. Phys.: Conf. Ser.,248, 012010 (2010) Q3 Effect of single magnetic atom on spin-polarized transport of armchair graphene nanoribbons M Kavand, M Kariminezhad, A Namiranian Solid State Communications, 150, 1537 (2010) Q1 Nonlinear conductance reveals positions of carbon atoms in metallic single-wall carbon nanotubes P Partovi-Azar, A Namiranian Eur. Phys. J. B, 72, 89 (2009) Q1 Nonlinear effect in conductance of a finite-length armchair single-wall carbon nanotube due to presence of a single impurity P Partovi-Azar, A Namiranian J. Phys.: Conf. Ser., 129, 012010 (2008) Q3 Nonlinear conductance in finite-length armchair single-wall carbon nanotubes with one single impurity P Partovi-Azar, A Namiranian J. Phys.: Condens. Matter, 20, 135213 (2008) Q1 Effects of band structure and quantum interference on the differential conductance of infinite metallic single-wall carbon nanotubes M Bagheri, A Namiranian J. Phys.: Condens. Matter, 19, 096207 (2007) Q1 Nonlinear conductance of a quantum microconstriction with single slow two-level system A Namiranian, Ye S.Avotina, Yu A Kolesnichenko Phys. Rev. B, 70, 073308 (2004) Q1 Quantum interference effect in the nonlinear conductance of metallic single-wall nanotubes A Namiranian Phys. Rev. B, 70, 073402 (2004) Q1 Conductance of metallic single-wall nanotube with single magnetic impurities A Namiranian, S Jaffarzadeh Physica E Low-dimensional Systems and Nanostructures, 22, 833 (2004) Q2 Voltage-dependent conductance and shot noise in quantum microconstrictions with single defects Ye S Avotina, A Namiranian, and Yu A. Kolesnichenko Phys. Rev. B, 70, 075308 (2004) Q1 Conductivity of a two-dimensional curved microconstriction A Namiranian, M.R.H Khajehpour, Yu.A Kolesnichenko, S.N Shevchenko Physica E: Low-dimensional Systems and Nanostructures, 10, 549 (2001) Q2 Modeling of tunneling spectroscopy in high-TC superconductors Yu. M. Shukrinov, A. Namiranian and A. Najafi Low Temperature Physics, 27, 10 (2001) Q3 The quantum conductance of ballistic microconstrictions in metals with an open Fermi surface A. Namiranian, Yu. A. Kolesnichenko Low Temperature Physics, 26, 513 (2000) Q3 The influence of single magnetic impurities on the conductance of quantum microconstrictions A. Namiranian, Yu. A. Kolesnichenko Low Temperature Physics, 26, 508 (2000) Q3 Effect of quantum interference in the nonlinear conductance of microconstrictions A. Namiranian, Yu. A. Kolesnichenko, A. N. Omelyanchouk Physical Review B, 61 (2000) Q1 Modeling of Tunneling Spectroscopy in HTSC Yu. M. Shukrinov, A. Namiranian, A. Najafi arXiv:cond-mat/0002077v1 Morphological examination of Cu 3 N thin film growth by a stochastic simulation M Jabalameli, A. Namiranian

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