IPM - Institute for Research in Fundamental Sciences

“Afshin Namiranian”

Tel: +98 21 2835058

Fax: +98 21 2835058

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IPM Positions

Resident Researcher, School of Nano Science
(2004 - 2017 )

Research Interests

Electron transport in nano-structures

Research Activities

The studying of electron behavior in nano-structures as quantum wires and quantum dots has a key issue in designing the promising nano-electrons devices. My research interests focuses on such specially over interference and nonlinear effects of electrical conductance of these systems in the presence & impurities, defects and any other imperfectness.

Related Papers

1. F. Tajik and A. Namiranian
Differential conductance of armchair single-wall carbon nanotubes due to presence of electron-phonon interaction
Physica E 84 (2016), 79 [abstract]

2. P. Partovi Azar, S. Panahian Jand, A. Namiranian and H. Rafii Tabar
Electronic features induced by Stone-Wales defects in zigzag and chiral carbon nanotubes
Computational Material Science 79 (2013), 82-86 [abstract]

3. P. Ayria and A. Namiranian
The estimation of current and differential conductance of armchair single-wall carbon nanotubes via dissipative energy method
Eur. Phys. J. B 86 (2013), 5 [abstract]

4. P. Azar and A. Namiranian
Stone-Wales defects can cause a metal?semiconductor transition in carbon nanotubes depending on their orientation
J. Physics: Condens. Matter 24 (2011), 8 [abstract]

5. M. Kavand, M. Kariminezhad and A. Namiranian
Effect of single magnetic atom on spin-polarized transport of armchair graphene nanoribbons
Solid State Commun. 150 (2010), 5 [abstract]

6. M. Kariminezhad, M. Kavand and A. Namiranian
Effect of magnetic impurity on spin-polarized transport in armchair single-wall carbon nanotubes
Physica E 43 (2010), 5 [abstract]

7. P. Partovi Azar and A. Namiranian
Nonlinear conductance reveals positions of carbon atoms in metallic single-wall carbon nanotubes
Eur. Phys. J. B 72 (2009), 7 [abstract]

8. P. Partovi Azar and A. Namiranian
Nonlinear conductance in finite-length armchair single-wall carbon nanotubes
J. Physics: Condens. Matter 20 (2008), 135213 [abstract]

9. M. Neek-Amal, G. Tayebirad , M. Molayem, M. E. Fouladvand, A. Namiranian and L. Esmaeili-Sereshki
Ground State Study of simple atoms within a nanoscale box
Solid State Commun. 145 (2007), 6 [abstract]

10. M. Bagheri and A. Namiranian
Effects of band structure and quantum interference on the differential conductance of infinite metallic single-wall carbon nanotubes
J. Physics: Condens. Matter 19 (2007), 21 [abstract]

11. A. Namiranian
Quantum interference effect in the nonlinear conductance of metallic single-wall nanotubes
Phys. Rev. B 70 (2004), 4 [abstract]

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“Afshin Namiranian”

IPM Positions

Research Interests

Research Activities

Related Papers

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IPM Positions
Resident Researcher, School of Nano Science (2004 - 2017 )
Research Interests
Electron transport in nano-structures
Research Activities
The studying of electron behavior in nano-structures as quantum wires and quantum dots has a key issue in designing the promising nano-electrons devices. My research interests focuses on such specially over interference and nonlinear effects of electrical conductance of these systems in the presence & impurities, defects and any other imperfectness.
Related Papers


1.	F. Tajik and A. Namiranian Differential conductance of armchair single-wall carbon nanotubes due to presence of electron-phonon interaction Physica E 84 (2016), 79 [abstract]


2.	P. Partovi Azar, S. Panahian Jand, A. Namiranian and H. Rafii Tabar Electronic features induced by Stone-Wales defects in zigzag and chiral carbon nanotubes Computational Material Science 79 (2013), 82-86 [abstract]


3.	P. Ayria and A. Namiranian The estimation of current and differential conductance of armchair single-wall carbon nanotubes via dissipative energy method Eur. Phys. J. B 86 (2013), 5 [abstract]


4.	P. Azar and A. Namiranian Stone-Wales defects can cause a metal?semiconductor transition in carbon nanotubes depending on their orientation J. Physics: Condens. Matter 24 (2011), 8 [abstract]


5.	M. Kavand, M. Kariminezhad and A. Namiranian Effect of single magnetic atom on spin-polarized transport of armchair graphene nanoribbons Solid State Commun. 150 (2010), 5 [abstract]


6.	M. Kariminezhad, M. Kavand and A. Namiranian Effect of magnetic impurity on spin-polarized transport in armchair single-wall carbon nanotubes Physica E 43 (2010), 5 [abstract]


7.	P. Partovi Azar and A. Namiranian Nonlinear conductance reveals positions of carbon atoms in metallic single-wall carbon nanotubes Eur. Phys. J. B 72 (2009), 7 [abstract]


9.	M. Neek-Amal, G. Tayebirad , M. Molayem, M. E. Fouladvand, A. Namiranian and L. Esmaeili-Sereshki Ground State Study of simple atoms within a nanoscale box Solid State Commun. 145 (2007), 6 [abstract]


10.	M. Bagheri and A. Namiranian Effects of band structure and quantum interference on the differential conductance of infinite metallic single-wall carbon nanotubes J. Physics: Condens. Matter 19 (2007), 21 [abstract]


11.	A. Namiranian Quantum interference effect in the nonlinear conductance of metallic single-wall nanotubes Phys. Rev. B 70 (2004), 4 [abstract]