جستجوی مقالات مرتبط با کلیدواژه « Quantum » در نشریات گروه « فیزیک »

In this paper, the use of quantum technology in the radar system and the advantages of these radars as compared to classical radars have been analyzed. In the beginning, briefly, we present the basic structure of the theory of quantum electrodynamics, and then the role of photon in this theory and photon interactions is presented.  In the next step, the most general form of the quantum radar cross section equation is extracted. This equation is also studied through a particle-type approach and introduces single-particle and two-particle illumination. Further, this equation is written in terms of Fourier transforms, since this method will pave the way for analyzing the cross-section of a quantum radar for defense purposes with various geometries. Finally, an analysis of the radar cross-sectional equation for flat panel geometry will be plotted, and computer simulations are carried out using MATLAB software, and finally, by comparing charts drawn from MATLAB software for classical and quantum radars, to analyze and compare them.

The aim of this project is to investigate the effects of 2-Pyrrole carboxylic acid molecule adsorption on the surface of pristine and Pd functionalized boron nitride nanocage (B12N12). All selected structures are optimized within the framework of DFT using B3LYP/Lanl2DZ. From optimized structures, the geometrical parameters (bond length, bond angle), HOMO and LUMO orbitals, infrared spectrum (IR), chemical shielding isotropic parameters (CSI), natural bonding orbital (NBO), quantum parameters, atom in molecule parameters (AIM) and molecular electrostatic potential (MEP) maps are calculated. The results indicate that in the functionalized B12N12 nanocage, the gap energy and global hardness of system decrease significantly from original state and so the conductivity and reactivity of BN nanocage increase.  The adsorption energy and enthalpy values of all adsorption models are negative and are exothermic and favorable in thermodynamic approach. The NBO, MEP and CSI parameters reveal that the electron charge transfer occurs from adsorbent toward nanocage, and this property is notable for electrophilic and nucleophilic attack in biological systems. The computational results demonstrate that the pristine and Pd functionalized BN nanocage can be used as a suitable candidate for fabricating detector and absorber for 2-Pyrrole carboxylic acid.