Marian Mogildea scite author profile

Marian Mogildea

5Publications

9Citation Statements Received

86Citation Statements Given

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Affiliations

Institute of Space Science

Publications

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Simulation of neutron production in heavy metal targets using Geant4 software

Baldin

Berlëv

Kudashkin

et al. 2016

Phys. Part. Nuclei Lett.

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Inelastic hadronic interactions in heavy targets have been simulated using Geant4 and compared with experimental data for thin and thick lead and uranium targets. Special attention is paid to neutron and fission fragment production. Good agreement in the description of proton beam interaction with thick tar gets is demonstrated, which is important for the simulation of experiments aimed at the development of sub critical reactors.

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The Effects Induced by Microwave Field upon Tungsten Wires of Different Diameters

Mogildea

Crăciun

et al. 2021

Materials

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The effects induced by microwave field upon tungsten wires of different diameters were investigated. Tungsten wires with 0.5 and 1.0 mm diameters were placed in the focal point of a single-mode cylindrical cavity linked to a microwave generator and exposed to microwave field in ambient air. The experimental results showed that the 0.5 mm diameter wire was completely vaporized due to microwaves strong absorption, while the wire with 1 mm diameter was not ignited. During the interaction between microwaves and tungsten wire with 0.5 mm diameter, a plasma with a high electronic excitation temperature was obtained. The theoretical analysis of the experiment showed that the voltage generated by metallic wires in interaction with microwaves depended on their electric resistance in AC and the power of the microwave field. The physical parameters and dimension of the metallic wire play a crucial role in the ignition process of the plasma by the microwave field. This new and simple method to generate a high-temperature plasma from a metallic wire could have many applications, especially in metal oxides synthesis, metal coatings, or thin film deposition.

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The Assessment of Carbon Dioxide Dissociation Using a Single-Mode Microwave Plasma Generator

Mogildea

Popa

et al. 2020

Molecules

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This paper focuses on the dissociation of carbon dioxide (CO2) following the absorption processes of microwave radiation by noncontact metal wire (tungsten). Using a microwave plasma generator (MPG) with a single-mode cavity, we conducted an interaction of microwaves with a noncontact electrode in a CO2 atmosphere. High energy levels of electromagnetic radiation are generated in the focal point of the MPG’s cylindrical cavity. The metal wires are vaporized and ionized from this area, subsequently affecting the dissociation of CO2. The CO2 dissociation is highlighted through plasma characterization and carbon monoxide (CO) quantity determination. For plasma characterization, we used an optical emission spectroscopy method (OES), and for CO quantity determination, we used a gas analyzer instrument. Using an MPG in the CO2 atmosphere, we obtained a high electron temperature of the plasma and a strong dissociation of CO2. After 20 s of the interaction between microwaves and noncontact electrodes, the quantity of CO increased from 3 ppm to 1377 ppm (0.13% CO). This method can be used in space applications to dissociate CO2 and refresh the atmosphere of closed spaces.

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Crystalline In2O3 nanoparticles synthesis using microwaves vaporization of metallic wires

Crǎciun

Garoi

Mogildea

et al. 2022

Applied Surface Science

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Wireless Acoustic Emission Sensor Device with Microcontroller

Chilibon

Mogildea

2012

Procedia Engineering

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Marian Mogildea

Simulation of neutron production in heavy metal targets using Geant4 software

The Effects Induced by Microwave Field upon Tungsten Wires of Different Diameters

The Assessment of Carbon Dioxide Dissociation Using a Single-Mode Microwave Plasma Generator

Crystalline In2O3 nanoparticles synthesis using microwaves vaporization of metallic wires

Wireless Acoustic Emission Sensor Device with Microcontroller

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