Cao Van Hiep scite author profile

Cao Van Hiep

4Publications

5Citation Statements Received

0Citation Statements Given

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Affiliations

Vietnam Military Medical University, Military Institute

Publications

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Gamma Spectrum Stabilization for Environmental Radiation Monitoring Stations Using Nai(tl) Detector

Hung

Hiep

Khang

et al. 2020

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Abstract Gamma spectrum measured by an NaI(Tl) detector is known to be unstable with the in situ temperature. In the present work, an advanced method has been applied to stabilize the gamma spectrum measured by the NaI(Tl) detector at environmental radiation monitoring (ERM) stations. The method is based on experimental data obtained under controlled conditions in laboratory. In the temperature range from 4 to 45°C, the relative deviation of the peak positions within the stabilized gamma spectrum is less than 2%. To test this method in a real scenario, it has been integrated into the ERM station at the Military Institute of Chemical and Environmental Engineering in Hanoi, Vietnam. The results show that the proposed method is ready for a real application.

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Nuclide Identification Algorithm for the Large-Size Plastic Detectors Based on Artificial Neural Network

Hiep

Anh²,

Khang

et al. 2022

IEEE Trans. Nucl. Sci.

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Investigating the Characteristics of Large-Volume PVT Scintillation Detectors in the Radiation Portal Monitors Using Monte Carlo Simulations

Hiep

2021

JMST

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This paper presents the characteristics determination process of the large-size Polyvinyl Toluene (PVT) scintillation detectors using MCNP5 simulation code. The energy spectra using a 137Cs calibration source, absolute efficiency in the energy range of 50 ÷ 3000 keV, and the angular response of the EJ-200 50×50×5 cm3 and 25×25×5cm3 are investigated. The simulated energy spectra are in good agreement with the experimental spectra. The results of determining the absolute efficiency show that the EJ-200 50×50×5 cm3 and 25×25×5cm3 plastic detectors have detection efficiencies of 16,3% and 9,2%, respectively, at 10cm source-to-detector distance, and down to 0,6% and 0,17% at 100 cm source-to-detector distance. The angular responses of the detectors show that the detection efficiency value reached ≥ 90% of the maximum value with the incident angle less than 5π/6. The results can be applied in the process of design optimization of plastic-based radiation portal monitors.

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A Confident Configuration for an Environmental Radiation Monitoring System

Hung

Hiep

Khang

et al. 2020

IEEE Trans. Nucl. Sci.

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Cao Van Hiep

Gamma Spectrum Stabilization for Environmental Radiation Monitoring Stations Using Nai(tl) Detector

Nuclide Identification Algorithm for the Large-Size Plastic Detectors Based on Artificial Neural Network

Investigating the Characteristics of Large-Volume PVT Scintillation Detectors in the Radiation Portal Monitors Using Monte Carlo Simulations

A Confident Configuration for an Environmental Radiation Monitoring System

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