Current Issue

April, 2021 | Volume 71, No. 4
• 

  Review Paper 2021-04-30

  Assessment of the Magnetocaloric Effect upon the Magnetic Entropy Change

  Ying De ZHANG, Tien Van MANH, The Long PHAN et al.

  https://doi.org/10.3938/NPSM.71.316

  Abstract : The magnetocaloric effect is a dynamic phenomenon associated with a temperature change of a magnetic material when it is subjected to a magnetic-field change. The effect can be assessed through the adiabatic temperature change (ΔT_ad) or the isothermal magnetic-entropy change (ΔS_m). This work reviews some typical methods that are usually used to calculate ΔS_m for perovskite-type manganites. These methods was thermodynamic relations and different theoretical models to analyze magnetization isotherms, M(H) data, recorded at temperatures around the ferromagnetic-paramagnetic phase transition (TC), Together with showing the methods for calculating of ΔS_m, we also take into account the figures of merit of a MC material.

  Show More  

  Abstract PDF
• 

  Review Paper 2021-04-30

  Gamma Ray Bursts and Gravitational Waves: Landscape with Physics

  Hyun Kyu LEE*

  https://doi.org/10.3938/NPSM.71.327

  Abstract : The observations of gamma-ray bursts and gravitational waves imply the presence of explosive phenomena in the Universe, which are characterized by the emission of solar-mass-equivalent energies in a time shorter than few seconds (much more luminous than the whole Universe). Compact stars, like black holes and/or neutron stars, are believed to be the main actors at the centers of explosive processes. The mechanism for explosivly emiting energy in system with black holes which includes the gravitational binding energy in inspiral and merging processes and the rotational energy due to the magnetic braking process, and the possible characteristics of the gravitational waves from the center of gamma-ray bursts will be discussed. The properties of compact stars and of hadronic matter at extreme high density can be probed by gamma-ray bursts and gravitational waves.

  Show More  

  Abstract PDF
• 

  Research Paper 2021-04-30

  Nitrogen-doped Carbon Nanofiber for use in a Symmetric Supercapacitor

  Gyawali GHANASHYAM, Hae Kyung JEONG*

  https://doi.org/10.3938/NPSM.71.340

  Abstract : We synthesized nitrogen-doped carbon nanofiber for supercapacitor applications. Melamine is used as nitrogen source. 4 wt% of nitrogen is doped, and it consists of pyridinium, pyrrole, and quaternary nitrogen The electrochemical surface area increased from 0.28 $\mu$cm$^{2}$ to 0.40 $\mu$cm$^{2}$ due to the nitrogen doping, and the electrochemical impedance decreased from 249 to 63 $\Omega$ at 100 Hz. Finally, the specific capacitance was enhanced from 71 F/g to 192 F/g (at 0.5 A/g), which is almost three times higher, compared to the precursor carbon nanofiber. A high specific energy of 17 Wh/kg with a specific power of 200 W/kg was obtained from a symmetric supercapacitor device. Capacitance retention of 87% and coulombic efficiency of 81% after 3,000 cycles prove relatively good rate capability and cyclic stability.

  Show More  

  Abstract PDF
• 

  Research Paper 2021-04-30

  Structural Study on Spontaneous van der Waals Epitaxy of Layered Chalcogenide film

  Jae-Yeol HWANG*

  https://doi.org/10.3938/NPSM.71.347

  Abstract : In the layer-structured Bi-Sb-Te (BST) pnictogen chalcogenide film grown on a Al$_2$O$_3$ substrate by using spontaneous van der Waals epitaxy, a structurally correlated in-plane orientation between the 2D BST film and the 3D substrate was found. In order to elucidate the origin of such a peculiar structural feature, we confirmed that well-matched stacking at the van der Waals hetero-interface could be induced by the similar atomic arrangements and surface topographies of Te monolayers. Particularly, the $c-$axis lattice parameter of the BST film was individually manipulated by altering the growth rate of spontaneous van der Waals epitaxy. We found that such a change could be generated by variations in the van der Waals interfaces between BST quintets in a layer-structured pnictogen chalcogenide.

  Show More  

  Abstract PDF
• 

  Research Paper 2021-04-30

  Effect of Raw Material SiO₂ Powder Size on the Crystallinity of Sr₃SiO₅:Eu^(3+/2+)(4%) Phosphor and Optical Properties of Eu^(3+/2+)

  Purevdulam NANKHAI, Kiwan JANG*

  https://doi.org/10.3938/NPSM.71.353

  Abstract : We fabricated a series of Sr_2.96SiO₅:0.04Eu^(2+/3+) phosphors by using powders of a raw-material, SiO₂, with various grainsizes, and we studied the effect of grain particle size on optical properties, such as excitation and emission spectra of Eu^(2+/3+) ions doped in Sr3SiO₅ and the crystallinity of Sr_2.96SiO₅:0.04Eu^(2+/3+). Some of the samples studied using x-ray diffiaction had the same crystal structure as that of the standard sample Sr3SiO₅(JCPDS-260984), but the crystallinity and the optical properties of Sr_2.96SiO₅:0.04Eu^(2+/3+) depended greatly on the size of the particles in the SiO₂ powder. The studied Sr_2.96SiO₅:0.04Eu²⁺ phosphors showed the maximum emission intensity at 582 nm with a full width at half maximum of about 70 nm and had good excitation efficiencies in the 240-500 nm region. Thus, we can conclude that the combination of ultraviolet or blue LED chips with a Sr_2.96SiO₅:0.04Eu²⁺ phosphor can be used as a source of warm white light with many potential applications. Through this study, we experimentally confirmed that the fabrication of Sr_2.96SiO₅:0.04Eu²⁺ phosphors was very sensitive to the powder size of SiO₂ raw material.

  Show More  

  Abstract PDF
• 

  Research Paper 2021-04-30

  Dirac Coupled Channel Analyses of $^{120}$Sn (p,p$^\prime$)

  Sugie SHIM*

  https://doi.org/10.3938/NPSM.71.360

  Abstract : Unpolarized proton inelastic scatterings of 800-MeV from $^{120}$Sn are analyzed using an optical potential model and the first-order collective model in relativistic Dirac coupled channel calculations. The theoretical results for the differential cross sectioons obtained in the Dirac phenomenological calculations are compared with the experimental data and with the results obtained in non-relativistic calculations. The channel coupling effects between the excited states that belong to the ground state rotational band are investigated, and the deformation parameters for several of the lowest-lying excited state, as obtained using Dirac approaches, are analyzed and compared with those calculated by using non-relativistic approaches.

  Show More  

  Abstract PDF
• 

  Research Paper 2021-04-30

  Conceptual Changes of Elementary Science-gifted Students Through Analogy Between the Current in an Electric Circuit and Mechanical Motion

  Jiseon KIM, Hyejung KWAK, Jung Bog KIM*

  https://doi.org/10.3938/NPSM.71.364

  Abstract : The purpose of this study was to analyze the conceptual changes, as related to electric current of elementary science-gifted students through analogy between the motion of charge and mechanical motion in gravity. This study developed an analogy considering reasoning for the motion of charge to help students understand the reason charge moves in an electrical circuit, the reason a bulb lights up, and the factors influencing the speed of charge. As a result of this research, the average Hake-gain for each of the 6 categories was 0.92, and that fot all students was a high of 0.94, The analogy between the reasoning for the motion of charge and mechanucal motion in gravity was confirme to be a highly effective teaching approach for changing the misconceptions of elementary gifted students about electric current to more scientific concepts. Especially, students who discovered the fact that while particles (charges) are passing through a light bulb, particles go faster, hit an obstacle, and slow down repeatedly, understood that the speed of particles before and after passing through the light bulb was the same, so the current consumption model and the sequential consumption model were changed to a scientific model.

  Show More  

  Abstract PDF
• 

  Research Paper 2021-04-30

  Scientific Inquiry Activity to Measure the Conductivity of a Conductor by Using Magnetic Levitation

  Sungwook HONG*

  https://doi.org/10.3938/NPSM.71.383

  Abstract : In this study, the forces on a permanent magnet near a vertically rotating Cu plate were analyzed, and a method of measuring the conductivity of a conductor, such as Cu, was devised. The magnetic levitation force, $F_{L}$, and the drag force, $F_{D}$, act spontaneously on the magnet. $F_{L}$ and $F_{D}$ were determined by using a pendulum, that was designed to restrict the degree of freedom of one of the two angles to measure two angles in dividually. When the distance between the Cu surface and the magnet was constant, the higher the rotational linear velocity of Cu was, the greater the $F_{D}$ was. However, when the linear velocity was constant, $F_{D}$ was inversely proportional to the square of the distance. Because the distance increased when the linear velocity of the Cu plate increased, the magnetic levitation force $F_{L}$ can be expressed as a function of the velocity and the distance. $F_{D}$ decreased with decreasing linear velocity of Cu when measured under the same measurement conditions as $F_{L}$, and the conductivity of Cu was found to be $\sigma = 5.92 \pm 0.35 \times 10^{7} \Omega^{-1}$m$^{-1}$ based on the relationship between $F_{L}$ and $F_{D}$.

  Show More  

  Abstract PDF
• 

  Research Paper 2021-04-30

  Measurement of Dielectric Constants of Liquids Using a Parallel Plate Capacitor

  Gun Hee KIM, Hye Jin HA, Sang Ho SOHN* et al.

  https://doi.org/10.3938/NPSM.71.390

  Abstract : To estimate the dielectric constants of liquids we designed, a hollow acrylic box and derived formulas for the capacitance and the dielectric constant in a parallel plate capacitor with a hollow acrylic box. The dielectric constants of acrylic, distilled water, and sodium chloride aqueous solutions were obtained and compared with theoretical values. Due to the fringing effect, the measured capacitances of the parallel plate capacitor were found to have values different from the theoretical ones. Because our formulas for the capacitance do not involve the fringing effect, the experimental capacitance values should be corrected using the ratio of the experimental value to the theoretical value to lessen the error rates. By doing so, we obtained meaningful data for the dielectric constants and confirmed that the dielectric constant decreased linearly with increasing concentration of sodium chloride in an aqueous sodium-chloride solution.

  Show More  

  Abstract PDF
• 

  Research Paper 2021-04-30

  Study of Lasing Characteristics of Passively Q-switched Nd:YAG Laser On Incidence Angle of Cr:YAG

  Jaeyeol LEE, Jin Seog GWAG, Jonghoon YI*

  https://doi.org/10.3938/NPSM.71.397

  Abstract : The passive Q-switching characteristics of a Nd:YAG laser pumped by using a fiber coupled laser diode were analyzed. The pulse energy from the passively Q-switched laser was calculated as a function of the initial transmittance of the Cr:YAG saturable absorber and the reflectance of the output mirror. The ratio of the TEM$_{00}$ mode size in the Nd:YAG crystal to the TEM$_{00}$ mode size in the Cr:YAG crystal was calculated as a function of the incidence angle of the Cr:YAG crystal and the curvature of the resonator mirror. From the calculated ratio of the TEM$_{00}$ mode sizes, the pulse energy of the Q-switched laser was obtained. When the angle of incidence was changed between 20$^{\circ}$ and 70$^{\circ}$, the pulse energy was controlled to be in the range from 14 mJ to 32 mJ for a 40% initial transmittance, and in the range from 0 to 15 mJ for a 90% initial transmittance.

  Show More  

  Abstract PDF
• 

  Research Paper 2021-04-30

  Ultrasonic Testing to Evaluate the Signal Characteristic for CFRP Composite Lamination

  Yun-Taek Yeom, Hak-Joon Kim, Sung-Jin Song et al.

  https://doi.org/10.3938/NPSM.71.404

  Abstract : CFRP (carbon fiber reinforced plastic) composites have superior chemical resistance, vibrationdamping properties, electrical insulation, dimensional safety, etc. than conventional metal materials. Also, applications of these composites are gradually being attempted in various fields, such as the automobile, shipbuilding, medical equipment, and aerospace and aviation industries, and the scope of applications is expanding. CFRP composites have properties such as imbalance and anisotropy because they are manufactured with a desired stacking order and fiber arrangement angle by using a one-way prepreg sheet. In the additive process, defects such as pores, uneven thickness, resin distribution, and micro-cracks can occur due to sliding or stacking defects and can cause the destruction of the fibers and parent materials, interfacial separation, and fracture, Thus, the characteristics for the shape of CFRP Composite lamination must be evaluate, so In this study, an evaluating of the characteristics was performed by analyzing the ultrasonic A-scan (Amplitude-scan) signal and C-scan (Contrast-scan) image for CFRP composite lamination

  Show More  

  Abstract PDF
• 

  Research Paper 2021-04-30

  Feasibility Study on the Calculation of Tritium Breeding Ratio using Geant4 ToolKit

  Byung Chul KIM* 

  https://doi.org/10.3938/NPSM.71.411

  Abstract : For fusion power generation, the reliable production of tritium, one of the fuels, is a critical challenge. The calculation of the tritium breeding ratio and the design of devices to optimize that ratio are essential when designing fusion demonstration reactor. Usually, MCNP codes are mainly used to calculate the tritium breeding ratio, but in this review, the feasibility of using Geant4, which is mainly used in the field of high-energy physics research, to examine tritium breeding ratio calculation was studied. Comparisons of tritium breeding ratios calculated using MCNP and Geant4 code in simple 1-D models with the same geometry and material properties showed agreement within a range of 1%. Comparisons of other variables (Flux, Energy Deposition) available from Monte Carlo computer simulations was also performed to consider the potential for expanding the utilization area of the Geant4 toolkit.

  Show More  

  Abstract PDF
• 

  Erratum 2021-04-30

  Erratum:Laser-Diode-Pumped Passively Q-switched Nd:YVO$_4$ Self-Raman Laser at 1178 nm

  Han Tae CHOO, Gyu Ug KIM*, Cha Gon PARK et al.

  https://doi.org/10.3938/NPSM.71.419

  Abstract PDF
• 

  Research Paper 2021-04-30

  Erratum:Laser-Diode-Pumped Actively Q-Switched YVO$_4$-Nd:YVO$_4$-YVO$_4$ 1525 nm Self Raman Laser

  Gyu Ug KIM*, Han Tae CHOO, Cha Gon PARK et al.

  https://doi.org/10.3938/NPSM.71.420

  Abstract PDF
• 

  Erratum 2021-04-30

  Erratum: Numerical Analysis of the Output Characteristics of an Intracavity Optical Parametric Oscillator with Thermal Lensing Effect

  Jin Hyeok CHOI, Gyu Ug KIM*

  https://doi.org/10.3938/NPSM.71.421

  Abstract PDF