مردانی, محمد
. گروه فیزیک، دانشکده علوم پایه، دانشگاه شهرکرد، شهرکرد
[ 1 ] - وابستگی رسانش الکترونی یک نانوحلقه کربنی به محل اتصال هادیها و میدان مغناطیسی اعمالی
In this paper, we studied the electronic conductance of a carbon nanoring using Green’s function method at the tight-binding approach for different positions of contacts in the presence and absence of magnetic field. The results show that as the conductors approch in the nanoring, the tunneling conductance in the gap region improves. Moreover, applying the magnetic field dramatically influences...
[ 2 ] - اثر تغییر مکان یک بار یا دوقطبی الکتریکی بر ترابرد الکترونی یک نانو بلور با ساختار مکعبی ساده
In this paper, we investigate the electrical conductance and density of states of a nanocrystal including an electrical charge or dipole located at cross section of nanocrystal by using Green’s function method in the nearest neighbor tight-binding approach. The results show that moving the electrical charge from center to the edge of the nanocrystal increases the system transmission coefficient...
[ 3 ] - اثر چرخش گشتاور مغناطیسی نقص ها روی رسانش وابسته به اسپین یک نانو سیم فرومغناطیس
In this paper, we calculate the spin-dependent conductance of ferromagnetic quantum wire in the presence of one or two defects by using Green's function method at the tight-binding approach. We study the effect of rotation of defect magnetic moment on the system conductance. The results show that in the magnetic wire, independent of existence or absence of defect, the allowed energy region shi...
[ 4 ] - رسانش وابسته به اسپین یک نانو ساختار استخوان ماهی نوعی
In this study, we investigated the spin dependent electronic transport of a fishbone-like nanostructure including two magnetic atoms at its ends. The electronic conductance of this nanostructure for three different orientations of atomic magnetic moments was numerically studied when the structure was sandwiched between two nonmagnetic leads. By using Green’s function technique at the tight-bind...
[ 5 ] - ترابرد الکترونی یک نانو ساختار نردبانی در حضور نقصهای شبکهای
The present research studied the electronic transport of an ideal infinite ladder nanostructure in the presence/absence of network defects by using Green’s function method at the tight-binding approximation. The network defects can be simulated by considering a finite ladder which is connected via two contacts to two similar infinite ladders. The results showed that the hopping energy of rungs...
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