The Physics Society of IranIranian Journal of Physics Research1682-69576420191126Analysis of multi-jet events in electron - positron annihilationAnalysis of multi-jet events in electron - positron annihilation239243527FAM. E. ZomorrodianA. MahmoodabadiJournal Article20191126 Analysis of electron – positron annihilation into hadrons in the range of energies above 60 GeV shows that apart from two jet events, there are evidence for three jet events that according to the QCD theory interpreted as a gluon radiation by a quark. However, the higher order diagrams lead to four jet events. In this paper, we study the fragmentation of quarks and gluons into hadronic jets . Acoplanarity(AC), is a parameter for our analysis of four jet events.We expect that four jet events have AC values opposite to zero. This result is consistent with results obtained from the Monte Carlo studies as well as the results obtained at lower energies. Possible explanation for all these features will be explained in this paper . Analysis of electron – positron annihilation into hadrons in the range of energies above 60 GeV shows that apart from two jet events, there are evidence for three jet events that according to the QCD theory interpreted as a gluon radiation by a quark. However, the higher order diagrams lead to four jet events. In this paper, we study the fragmentation of quarks and gluons into hadronic jets . Acoplanarity(AC), is a parameter for our analysis of four jet events.We expect that four jet events have AC values opposite to zero. This result is consistent with results obtained from the Monte Carlo studies as well as the results obtained at lower energies. Possible explanation for all these features will be explained in this paper .https://ijpr.iut.ac.ir/article_527_13f320e7b5ead1024ac95c3b208610db.pdfThe Physics Society of IranIranian Journal of Physics Research1682-69576420191126Stability of solitary solutions to the cubic-quintic coupled nonlinear Schrödinger equation(CQCNLSE)Stability of solitary solutions to the cubic-quintic coupled nonlinear Schrödinger equation(CQCNLSE)245251528FAM. MoradiM. M. GolshanJournal Article20191126 In this article we report the results of an investigation on the stability of solitary solutions to the Cubic-Quintic Coupled Nonlinear Schr ö dinger Equations.Using the theory of linear operators (here,2×2 matrics), we show that under a perturbation ui→ui + δui(δui= (αi(T) + ibi(T))eµδ)(i=1,2) the solitary solutions are stable. Moreover,we include the perturbation into the corresponding Hamiltonian and calculate the first and second order variations. Stability of the solitary solutions to the Coupled equations is then verified by the fact that the first- order variation vanishes and the second- order one is positive. In this article we report the results of an investigation on the stability of solitary solutions to the Cubic-Quintic Coupled Nonlinear Schr ö dinger Equations.Using the theory of linear operators (here,2×2 matrics), we show that under a perturbation ui→ui + δui(δui= (αi(T) + ibi(T))eµδ)(i=1,2) the solitary solutions are stable. Moreover,we include the perturbation into the corresponding Hamiltonian and calculate the first and second order variations. Stability of the solitary solutions to the Coupled equations is then verified by the fact that the first- order variation vanishes and the second- order one is positive.https://ijpr.iut.ac.ir/article_528_f4be00279ee2e0a53eafdaa94a151e2c.pdfThe Physics Society of IranIranian Journal of Physics Research1682-69576420191126Numerical study of electronic density of states and conductance of a molecular wire coupled with an external moleculeNumerical study of electronic density of states and conductance of a molecular wire coupled with an external molecule253260529FAS. A. KetabiN. ShahtahmasebiR. PilevarJournal Article20191126 There is a great interest in the electronic properties of conjugated polymers. Numerous works on the electronic and conduction properties of single-chain conjugated polymers have been published. From an electronic conduction point of view, these systems are quasi-one dimensional. The aim of this paper is to try to investigate corresponding properties in conducting polymers in higher of one-dimension. We study the electronic properties of a polyacetylene chain connected to other molecules. The effect of the size of the molecule and the strength of the coupling to the molecular wire is investigated. The results show that with the increase of the strength of the molecular wire/molecule coupling, the band gap of the system decreases and causes high electronic conduction. There is a great interest in the electronic properties of conjugated polymers. Numerous works on the electronic and conduction properties of single-chain conjugated polymers have been published. From an electronic conduction point of view, these systems are quasi-one dimensional. The aim of this paper is to try to investigate corresponding properties in conducting polymers in higher of one-dimension. We study the electronic properties of a polyacetylene chain connected to other molecules. The effect of the size of the molecule and the strength of the coupling to the molecular wire is investigated. The results show that with the increase of the strength of the molecular wire/molecule coupling, the band gap of the system decreases and causes high electronic conduction.https://ijpr.iut.ac.ir/article_529_37f0e884fbad9667e38940169d0a3c95.pdfThe Physics Society of IranIranian Journal of Physics Research1682-69576420191126Optical properties and electronic structure of ceramics tetragonal PbTiO3 by using full-potential linearized augmented plane waveOptical properties and electronic structure of ceramics tetragonal PbTiO3 by using full-potential linearized augmented plane wave261266530FAHSalehiJournal Article20191126 The electronic structure and optical properties in tetragonal ceramics PbTiO3 are studied by using full-potential linearized augmented plane wave (FP-LAPW) method in density functional theory (DFT) with the generalized gradient approximation (GGA) by WIEN2K package. The theoretical calculated optical properties and energy loss (EEL) spectrum yield a static refractive index of 2.59 and a plasmon energy of 22.7eV for the tetragonal phase. The effective electron number at low energy saturates near 22-23eV with the value of 50 for the effective electron number. The results show a indirect band gap of 2.2eV at the Γ point in the Brillouin zone. The calculated band structure and density of states of PbTiO3 agree with previous experimental and theoretical results. The electronic structure and optical properties in tetragonal ceramics PbTiO3 are studied by using full-potential linearized augmented plane wave (FP-LAPW) method in density functional theory (DFT) with the generalized gradient approximation (GGA) by WIEN2K package. The theoretical calculated optical properties and energy loss (EEL) spectrum yield a static refractive index of 2.59 and a plasmon energy of 22.7eV for the tetragonal phase. The effective electron number at low energy saturates near 22-23eV with the value of 50 for the effective electron number. The results show a indirect band gap of 2.2eV at the Γ point in the Brillouin zone. The calculated band structure and density of states of PbTiO3 agree with previous experimental and theoretical results.The Physics Society of IranIranian Journal of Physics Research1682-69576420191126Recognizing chaotic states in stadium billiard by calculating gyration radiusRecognizing chaotic states in stadium billiard by calculating gyration radius275281531FAM. BareziH. MosadeghB. MirzaJournal Article20191126 Nowadays study of chaotic quantum billiards because of their relation to Nano technology. In this paper distribution of zeros of wave function on the boundary of two circular and stadium billiards are investigated. By calculating gyration radius for these points chaotic and non-chaotic states are distinguished. Nowadays study of chaotic quantum billiards because of their relation to Nano technology. In this paper distribution of zeros of wave function on the boundary of two circular and stadium billiards are investigated. By calculating gyration radius for these points chaotic and non-chaotic states are distinguished.https://ijpr.iut.ac.ir/article_531_0fcbc61acd0479dc77e3cccc0f5ffca7.pdfThe Physics Society of IranIranian Journal of Physics Research1682-69576420191126The study of scale in Persian music according to notes spectrumsThe study of scale in Persian music according to notes spectrums283288532FAA. NadjiJournal Article20191126 In this paper we have extracted the notes of Iranian scale from the traditional music played by the great musician Shahnazi on the TAR. Then, by analyzing the spectrum of the notes and by using our special averaging we have found the pitch attributed to the components’ frequency and found the interval between the notes. The results are in comple agreement with Pythagorean scale. Pitch is a subjective quantity that attribute auditory sensation in terms of which sounds maybe ordered on a scale extending from low to high. For a pure tone pitch depends mainly on the frequency of the sound stimulus, but for complex tones or musical sounds pitch depends on partials of the complex tone and when the partials of a complex tone are not harmonic however the determination of pitch is more subtle. Indeed the vibrations of string instruments give rise to overtones which are not exactly multiples of fundamental, so the pitch of musical sound that we perceive is a subjective quantity related to frequencies of the overtones. In this paper we study the effect of partials in pitch of musical notes and by averaging between partials we introduce a subjective quantity which represents the pitch of musical note which is in quite agreement with experiments. As we know there are two famous scales for music, Aristoxenuss and Pythagoraean scale. The intervals in Aristoxenuss scale are and in Pythagorean scale are Farabi, the well-known philosopher, based Iranian traditional music on Pythagorean scale and our measurements of pitch and intervals of the notes show this scale has remained unchanged for a thousand years. In this paper we have extracted the notes of Iranian scale from the traditional music played by the great musician Shahnazi on the TAR. Then, by analyzing the spectrum of the notes and by using our special averaging we have found the pitch attributed to the components’ frequency and found the interval between the notes. The results are in comple agreement with Pythagorean scale. Pitch is a subjective quantity that attribute auditory sensation in terms of which sounds maybe ordered on a scale extending from low to high. For a pure tone pitch depends mainly on the frequency of the sound stimulus, but for complex tones or musical sounds pitch depends on partials of the complex tone and when the partials of a complex tone are not harmonic however the determination of pitch is more subtle. Indeed the vibrations of string instruments give rise to overtones which are not exactly multiples of fundamental, so the pitch of musical sound that we perceive is a subjective quantity related to frequencies of the overtones. In this paper we study the effect of partials in pitch of musical notes and by averaging between partials we introduce a subjective quantity which represents the pitch of musical note which is in quite agreement with experiments. As we know there are two famous scales for music, Aristoxenuss and Pythagoraean scale. The intervals in Aristoxenuss scale are and in Pythagorean scale are Farabi, the well-known philosopher, based Iranian traditional music on Pythagorean scale and our measurements of pitch and intervals of the notes show this scale has remained unchanged for a thousand years.https://ijpr.iut.ac.ir/article_532_298f95e1bf9136124592c8d4825a06fc.pdfThe Physics Society of IranIranian Journal of Physics Research1682-69576420191126Design and fabrication of optical thin film layers with variable thickness profile for producing variable reflectivity mirrorsDesign and fabrication of optical thin film layers with variable thickness profile for producing variable reflectivity mirrors289297533FAHamid R FallahA. MobasheriH. SaghafifarJournal Article20191126 The design method and fabrication of mirrors with variable reflectivity are presented. To fabricate such a mirror a fixed mask with a circular aperture is used. The circular aperture is considered as an extended source with cosx(θ)as its diffusion distribution function and is the parameter for the distribution function of the particles through the aperture. The thickness profile of deposited layer is a function of this distribution. In this work, the coating system is calibrated for the materials which are used and then the parameter of the diffusion distribution function of the particles through the circular aperture is defined by experiments. Using these results, a graph is presented which connects the parameter of the circular aperture to the parameters of the thickness profile. It is then possible to deposit any type of variable reflectivity mirror using this graph. Finally, the effect of the uncertainty in measuring layer thicknesses on the phase of reflected wave and transmitted wave is investigated. The design method and fabrication of mirrors with variable reflectivity are presented. To fabricate such a mirror a fixed mask with a circular aperture is used. The circular aperture is considered as an extended source with cosx(θ)as its diffusion distribution function and is the parameter for the distribution function of the particles through the aperture. The thickness profile of deposited layer is a function of this distribution. In this work, the coating system is calibrated for the materials which are used and then the parameter of the diffusion distribution function of the particles through the circular aperture is defined by experiments. Using these results, a graph is presented which connects the parameter of the circular aperture to the parameters of the thickness profile. It is then possible to deposit any type of variable reflectivity mirror using this graph. Finally, the effect of the uncertainty in measuring layer thicknesses on the phase of reflected wave and transmitted wave is investigated.https://ijpr.iut.ac.ir/article_533_df877f3865752637daa540ea9cbc474f.pdfThe Physics Society of IranIranian Journal of Physics Research1682-69576420191126The properties of electron transport through CNT/trans-PA/CNT systemThe properties of electron transport through CNT/trans-PA/CNT system298298534FAHMilani MoghaddamS AKetabiNShahtahmasebiJournal Article20191126 Using a tight-binding model and a tranfer-matrix technique, we numerically investigate the effects of the coupling strength, and the length of the molecule on the electronic transmission through a CNT/(single) molecule/CNT system. With trans-polyacetylene (trans-PA) as the molecule sandwiched between two semi-infinite carbon nanotube(CNT), we rely on Landauer formalism as the basis for studying the conductance properties of this system. Our calculations show that the conductance is sensitive to the CNT/molecule coupling and that it exponentially decreases with the increase in the length of the molecule, as expected. Using a tight-binding model and a tranfer-matrix technique, we numerically investigate the effects of the coupling strength, and the length of the molecule on the electronic transmission through a CNT/(single) molecule/CNT system. With trans-polyacetylene (trans-PA) as the molecule sandwiched between two semi-infinite carbon nanotube(CNT), we rely on Landauer formalism as the basis for studying the conductance properties of this system. Our calculations show that the conductance is sensitive to the CNT/molecule coupling and that it exponentially decreases with the increase in the length of the molecule, as expected.https://ijpr.iut.ac.ir/article_534_c399862d3b9d6b76c8436e924a68c45b.pdf