ORIGINAL_ARTICLE
The effect of crystalline and shape anisotropy on the magnetic properties of Co and Ni nanowires
Co and Ni magnetic nanowires with different diameter and deposition time were fabricated into the alumina template using ac electrodeposition. For Ni nanowires with 30 nm diameter the coercivity initially increased then dropped with deposition time, while it only increased with deposition time for all the other diameters. In general, the results showed that the coercivity reduced with diameter. The maximum coercivity was obtained for the Co nanowire made with 30 nm diameter and 30 s deposition time and further electrodeposition time causes a reduction of the coercivity. The effect of crystal and shape anisotropy on the magnetic properties were investigated and the results revealed that the crystal anisotropy has a dominant role on the coercive field of Co nanowires, while there is a competitive effect between both the anisotropies for the Ni nanowires changing the coercivity.
https://ijpr.iut.ac.ir/article_568_e057b0da554be9e67d4e226f8c6bbc4a.pdf
2019-11-26
73
80
Co nanowire
Ni nanowire
crystal anisotropy
shape anisotropy
porous alumina
R. Golipour
1
LEAD_AUTHOR
A. Khayyatian
2
AUTHOR
A. Ramazani
3
AUTHOR
M. Almasi Kashi
4
AUTHOR
ORIGINAL_ARTICLE
The structural and thermodynamical properties of binary ellipsoidal fluid mixture Gay-Berne interaction
In this paper, a uniform classical fluid mixture comprising ellipsoidal molecules is studied. This mixture is composed of two types of ellipsoidal molecules interacting through the Gay-Berne potential with different sizes at temperature T. For this system, the Ornstein-Zernike equation using the Percus-Yevick closure relation is solved. Then the direct correlation function, pair correlation function and the pressure of the fluid at temperature T are calculated. The obtained results are in agreement with the previous theories and the results of molecular dynamic computer simulation.
https://ijpr.iut.ac.ir/article_569_0c35c583d8e67b0552b40d707e9deb43.pdf
2019-11-26
81
90
molecular fluids
binary mixture
Gay-Berne interaction
correlation functions
M. Moradi
moradi@susc.ac.ir
1
LEAD_AUTHOR
R. Khordad
2
AUTHOR
ORIGINAL_ARTICLE
The mean field study of phase transitions in two dimensional Kagome lattice under local anisotropy
In this work we investigated the critical properties of the anti-ferromagnetic XY model on a two dimensional Kagome lattice under single-ion easy-axes anisotropy. Employing the mean field theory, we found that this model shows a second order phase transition from disordered to all-in all-out state for any value of anisotropy.
https://ijpr.iut.ac.ir/article_570_dc23580f671008df86e6e2e5cd947835.pdf
2019-11-26
91
100
XY model
Kagome lattice
mean field theory
magnetic frustration
S. Mortezapour
1
LEAD_AUTHOR
F. Shahbazi
2
AUTHOR
ORIGINAL_ARTICLE
The self-consistent method in calculating the ratio by using the structure functions and EMC ratios for 3He and 3H
By using the convolution formalism which consists of Fermi motion and binding effect, we investigate the deep inelastic electron scattering from A=3 mirror in the deep-valence region. The initial valence quark input is taken from the GRVs (Gluck, Reya and Vogt) fitting procedure and the next-to-leading order QCD evolution on FP < /sup>2 (x,Q2) which gives very good fit to the available data in the (x,Q2)-plane. It is shown that the free neutron to proton structure function ratios can be extracted from the corresponding EMC ratios for 3He and 3H mirror nuclei using the self - consistent iteration procedure and the results are in good agreement with other theoretical models as well as the current available experimental data and especially the projected data expected from the proposed 11GeV Jefferson Laboratory in near future.
https://ijpr.iut.ac.ir/article_571_ee5deb635d7da9201421898fe4a09637.pdf
2019-11-26
101
105
structure function
EMC effect
Fermi motion
self - consistent iteration equation
convolution formalism
M
Modarres
1
LEAD_AUTHOR
R
Mohammadi
2
AUTHOR
ORIGINAL_ARTICLE
Determining of electron temperature profile on the cross section of a Tokamak, using ECE technique
In this paper we have used plasma electron cyclotron emissions at the second harmonic frequency of extraordinary mode to determine the temperature profile of the plasma produced in IR-T1 Tokamak. The emissions obtained at different frequencies by a 5-channel heterodyne receiver, have been analyzed to determine the spatial variation of the electron temperature on the plasma cross section. The results have been also used to show the three-dimensional time evolution of the temperature profile during the period of confinement.
https://ijpr.iut.ac.ir/article_572_346d05e966ebb39c22cd0652c29a213c.pdf
2019-11-26
107
111
IR-T1 Tokamak
electron cyclotron emission
electron temperature
M. Hosseinpour
1
LEAD_AUTHOR
A. Anvari
2
AUTHOR
M. Ghorannevis
3
AUTHOR
ORIGINAL_ARTICLE
Multiscale entropy (MSE) and multicomponent complexity (MCC)
Multiscale entropy (MSE) is a powerful method for determining the complexity of random time series. In this paper we, investigate the cardiac heart interbeat interval (RR) time series by introducing a new method based on MSE, called multicomponent complexity (MCC) and find clear difference between healthy samples and samples with Congestive heart failure (CHF) disease.
https://ijpr.iut.ac.ir/article_573_02473058270f6748dcc727fd86b21901.pdf
2019-11-26
113
118
sample entropy
multiscale entropy
multicomponent complexity
coarse graining
M. Boorboor
1
LEAD_AUTHOR
F. shahbazi
2
AUTHOR
B. Mirza
3
AUTHOR
ORIGINAL_ARTICLE
Barrier and well-width dependence of optical emission of GaN/AlGaN quantum well nanostructures
Internal polarizations field which take place in quantum structures of group-III nitrides have an important consequence on their optical properties. Optical properties of wurtzite AlGaN/GaN quantum well (QW) structures grown by MBE and MOCVD on c-plane sapphire substrates have been investigated by means of photoluminescence (PL) and time resolved photoluminescence (TRPL) at low-temperature. PL spectra exhibit a blue-shifted emission of AlGaN/GaN quantum well (QW) nanostructures by decreasing the barrier width contrary to the arsenide system. The trend of the barrier-width dependence of the internal polarization field is reproduced by using simple electrostatic arguments. In addition the effect of well width variation on the optical transition and decay time of GaN MQWs have been investigated and it has been shown that the screening of the piezoelectric field and the electron-hole separation are strongly dependent on the well thickness and have a profound effect on the optical properties of the GaN/AlGaN MQWs.
https://ijpr.iut.ac.ir/article_574_d7b7a88c46034d5c84004b733d629ac9.pdf
2019-11-26
119
125
GaN/AlGaN multiple quantum well (MQW)
photoluminescence (PL)
time resolved photoluminescence (TRPL)
polarization field
semiconductor nano-structure
piezoelectric field
H. Haratizadeh
1
LEAD_AUTHOR
M. Esmaeili
2
AUTHOR
P. O. Holtz
3
AUTHOR
ORIGINAL_ARTICLE
Hypercentral constituent quark model and the hyperfine dependence potential
In this article nucleons are discussed based on constituent quark model. This model aims at studying the forces among three particles and the corresponding standard two-body potential contribution. The quark potential contains a hypercentral interaction. The confining potential is composed of four components,color charge, the oscillatory potential, the interaction quark and neutral gluon, and the dipole – dipole electromagnetic interaction. Dirac equation can be solved carefully and analytically by means of these potentials. In addition to the above potentials, there is a hyperfine potential which is related to isospin – isospin and spin –isopin interactions. These potentials were considered as perturbation potentials and their energy shift was calculated.
https://ijpr.iut.ac.ir/article_575_ec2d225dce37c263f3b5ababc1622067.pdf
2019-11-26
127
127
Dirac equation
hypercentral
Jacobian coordinate
hyperfine-isospin
M. R.
Shojaei
1
LEAD_AUTHOR
A. A.
Rajabi
2
AUTHOR
ORIGINAL_ARTICLE
Quantum averaging and resonances: two-level atom in a one-mode classical laser field
We use a nonperturbative method based on quantum averaging and an adapted from of resonant transformations to treat the resonances of the Hamiltonian of a two-level atom interacting with a one-mode classical field in Floquet formalism. We illustrate this method by extraction of effective Hamiltonians of the system in two regimes of weak and strong coupling. The results obtained in the strong-coupling regime, are valid in the whole range of the coupling constant for the one-photon zero-field resonance.
https://ijpr.iut.ac.ir/article_576_02437fd2f212489efe173a272e1230fe.pdf
2019-11-26
128
128
quantum averaging
two-level atom
Floquet formalism
resonant transformation
nonlinear resonance
M. Amniat-Talab
1
LEAD_AUTHOR
H. Sedghi
2
AUTHOR
R. Khoda-Bakhsh
3
AUTHOR